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CHECK report for OncoSimulR on tokay1

This page was generated on 2018-04-12 13:24:35 -0400 (Thu, 12 Apr 2018).

Package 971/1472HostnameOS / ArchINSTALLBUILDCHECKBUILD BIN
OncoSimulR 2.8.0
Ramon Diaz-Uriarte
Snapshot Date: 2018-04-11 16:45:18 -0400 (Wed, 11 Apr 2018)
URL: https://git.bioconductor.org/packages/OncoSimulR
Branch: RELEASE_3_6
Last Commit: 4e3de2b
Last Changed Date: 2017-10-30 12:40:20 -0400 (Mon, 30 Oct 2017)
malbec1 Linux (Ubuntu 16.04.1 LTS) / x86_64  NotNeeded  OK  OK UNNEEDED, same version exists in internal repository
tokay1 Windows Server 2012 R2 Standard / x64  NotNeeded  OK [ WARNINGS ] OK UNNEEDED, same version exists in internal repository
veracruz1 OS X 10.11.6 El Capitan / x86_64  NotNeeded  OK  OK  OK UNNEEDED, same version exists in internal repository

Summary

Package: OncoSimulR
Version: 2.8.0
Command: rm -rf OncoSimulR.buildbin-libdir OncoSimulR.Rcheck && mkdir OncoSimulR.buildbin-libdir OncoSimulR.Rcheck && C:\Users\biocbuild\bbs-3.6-bioc\R\bin\R.exe CMD INSTALL --build --merge-multiarch --library=OncoSimulR.buildbin-libdir OncoSimulR_2.8.0.tar.gz >OncoSimulR.Rcheck\00install.out 2>&1 && cp OncoSimulR.Rcheck\00install.out OncoSimulR-install.out && C:\Users\biocbuild\bbs-3.6-bioc\R\bin\R.exe CMD check --library=OncoSimulR.buildbin-libdir --install="check:OncoSimulR-install.out" --force-multiarch --no-vignettes --timings OncoSimulR_2.8.0.tar.gz
StartedAt: 2018-04-12 01:54:28 -0400 (Thu, 12 Apr 2018)
EndedAt: 2018-04-12 02:13:45 -0400 (Thu, 12 Apr 2018)
EllapsedTime: 1157.5 seconds
RetCode: 0
Status:  WARNINGS  
CheckDir: OncoSimulR.Rcheck
Warnings: 1

Command output

##############################################################################
##############################################################################
###
### Running command:
###
###   rm -rf OncoSimulR.buildbin-libdir OncoSimulR.Rcheck && mkdir OncoSimulR.buildbin-libdir OncoSimulR.Rcheck && C:\Users\biocbuild\bbs-3.6-bioc\R\bin\R.exe CMD INSTALL --build --merge-multiarch --library=OncoSimulR.buildbin-libdir OncoSimulR_2.8.0.tar.gz >OncoSimulR.Rcheck\00install.out 2>&1 && cp OncoSimulR.Rcheck\00install.out OncoSimulR-install.out  &&  C:\Users\biocbuild\bbs-3.6-bioc\R\bin\R.exe CMD check --library=OncoSimulR.buildbin-libdir --install="check:OncoSimulR-install.out" --force-multiarch --no-vignettes --timings OncoSimulR_2.8.0.tar.gz
###
##############################################################################
##############################################################################


* using log directory 'C:/Users/biocbuild/bbs-3.6-bioc/meat/OncoSimulR.Rcheck'
* using R version 3.4.4 (2018-03-15)
* using platform: x86_64-w64-mingw32 (64-bit)
* using session charset: ISO8859-1
* using option '--no-vignettes'
* checking for file 'OncoSimulR/DESCRIPTION' ... OK
* checking extension type ... Package
* this is package 'OncoSimulR' version '2.8.0'
* checking package namespace information ... OK
* checking package dependencies ... OK
* checking if this is a source package ... OK
* checking if there is a namespace ... OK
* checking for hidden files and directories ... OK
* checking for portable file names ... OK
* checking whether package 'OncoSimulR' can be installed ... WARNING
Found the following significant warnings:
  Rd warning: C:/Users/biocbuild/bbs-3.6-bioc/tmpdir/RtmpKYqleO/R.INSTALL8e86f736698/OncoSimulR/man/oncoSimulIndiv.Rd:570: missing file link 'mclapply'
See 'C:/Users/biocbuild/bbs-3.6-bioc/meat/OncoSimulR.Rcheck/00install.out' for details.
* checking installed package size ... NOTE
  installed size is  5.8Mb
  sub-directories of 1Mb or more:
    doc    2.9Mb
    libs   2.1Mb
* checking package directory ... OK
* checking 'build' directory ... OK
* checking DESCRIPTION meta-information ... OK
* checking top-level files ... OK
* checking for left-over files ... OK
* checking index information ... OK
* checking package subdirectories ... OK
* checking R files for non-ASCII characters ... OK
* checking R files for syntax errors ... OK
* loading checks for arch 'i386'
** checking whether the package can be loaded ... OK
** checking whether the package can be loaded with stated dependencies ... OK
** checking whether the package can be unloaded cleanly ... OK
** checking whether the namespace can be loaded with stated dependencies ... OK
** checking whether the namespace can be unloaded cleanly ... OK
** checking loading without being on the library search path ... OK
* loading checks for arch 'x64'
** checking whether the package can be loaded ... OK
** checking whether the package can be loaded with stated dependencies ... OK
** checking whether the package can be unloaded cleanly ... OK
** checking whether the namespace can be loaded with stated dependencies ... OK
** checking whether the namespace can be unloaded cleanly ... OK
** checking loading without being on the library search path ... OK
* checking dependencies in R code ... OK
* checking S3 generic/method consistency ... OK
* checking replacement functions ... OK
* checking foreign function calls ... OK
* checking R code for possible problems ... OK
* checking Rd files ... OK
* checking Rd metadata ... OK
* checking Rd cross-references ... OK
* checking for missing documentation entries ... OK
* checking for code/documentation mismatches ... OK
* checking Rd \usage sections ... OK
* checking Rd contents ... OK
* checking for unstated dependencies in examples ... OK
* checking contents of 'data' directory ... OK
* checking data for non-ASCII characters ... OK
* checking data for ASCII and uncompressed saves ... OK
* checking line endings in C/C++/Fortran sources/headers ... OK
* checking line endings in Makefiles ... OK
* checking compilation flags in Makevars ... OK
* checking for GNU extensions in Makefiles ... OK
* checking for portable use of $(BLAS_LIBS) and $(LAPACK_LIBS) ... OK
* checking compiled code ... NOTE
Note: information on .o files for i386 is not available
Note: information on .o files for x64 is not available
File 'C:/Users/biocbuild/bbs-3.6-bioc/meat/OncoSimulR.buildbin-libdir/OncoSimulR/libs/i386/OncoSimulR.dll':
  Found 'abort', possibly from 'abort' (C), 'runtime' (Fortran)
  Found 'exit', possibly from 'exit' (C), 'stop' (Fortran)
  Found 'printf', possibly from 'printf' (C)

Compiled code should not call entry points which might terminate R nor
write to stdout/stderr instead of to the console, nor use Fortran I/O
nor system RNGs. The detected symbols are linked into the code but
might come from libraries and not actually be called.

See 'Writing portable packages' in the 'Writing R Extensions' manual.
* checking installed files from 'inst/doc' ... OK
* checking files in 'vignettes' ... OK
* checking examples ...
** running examples for arch 'i386' ... OK
Examples with CPU or elapsed time > 5s
                user system elapsed
oncoSimulIndiv 12.53   0.17   12.71
mcfLs           5.44   0.16    5.59
** running examples for arch 'x64' ... OK
Examples with CPU or elapsed time > 5s
               user system elapsed
oncoSimulIndiv  9.3   0.05    9.34
* checking for unstated dependencies in 'tests' ... OK
* checking tests ...
** running tests for arch 'i386' ...
  Running 'testthat.R'
 OK
** running tests for arch 'x64' ...
  Running 'testthat.R'
 OK
* checking for unstated dependencies in vignettes ... OK
* checking package vignettes in 'inst/doc' ... OK
* checking running R code from vignettes ... SKIPPED
* checking re-building of vignette outputs ... SKIPPED
* checking PDF version of manual ... OK
* DONE

Status: 1 WARNING, 2 NOTEs
See
  'C:/Users/biocbuild/bbs-3.6-bioc/meat/OncoSimulR.Rcheck/00check.log'
for details.



Installation output

OncoSimulR.Rcheck/00install.out


install for i386

* installing *source* package 'OncoSimulR' ...
** libs
C:/Rtools/mingw_32/bin/g++  -std=gnu++11 -I"C:/Users/BIOCBU˜1/BBS-3˜1.6-B/R/include" -DNDEBUG  -I"C:/Users/biocbuild/bbs-3.6-bioc/R/library/Rcpp/include"   -I"C:/local323/include"     -O2 -Wall  -mtune=generic -c BNB_nr.cpp -o BNB_nr.o
C:/Rtools/mingw_32/bin/g++  -std=gnu++11 -I"C:/Users/BIOCBU˜1/BBS-3˜1.6-B/R/include" -DNDEBUG  -I"C:/Users/biocbuild/bbs-3.6-bioc/R/library/Rcpp/include"   -I"C:/local323/include"     -O2 -Wall  -mtune=generic -c BNB_v1.cpp -o BNB_v1.o
C:/Rtools/mingw_32/bin/gcc  -I"C:/Users/BIOCBU˜1/BBS-3˜1.6-B/R/include" -DNDEBUG  -I"C:/Users/biocbuild/bbs-3.6-bioc/R/library/Rcpp/include"   -I"C:/local323/include"     -O3 -Wall  -std=gnu99 -mtune=generic -c OncoSimulR_init.c -o OncoSimulR_init.o
C:/Rtools/mingw_32/bin/g++  -std=gnu++11 -I"C:/Users/BIOCBU˜1/BBS-3˜1.6-B/R/include" -DNDEBUG  -I"C:/Users/biocbuild/bbs-3.6-bioc/R/library/Rcpp/include"   -I"C:/local323/include"     -O2 -Wall  -mtune=generic -c RcppExports.cpp -o RcppExports.o
C:/Rtools/mingw_32/bin/g++  -std=gnu++11 -I"C:/Users/BIOCBU˜1/BBS-3˜1.6-B/R/include" -DNDEBUG  -I"C:/Users/biocbuild/bbs-3.6-bioc/R/library/Rcpp/include"   -I"C:/local323/include"     -O2 -Wall  -mtune=generic -c accessible_genotypes.cpp -o accessible_genotypes.o
accessible_genotypes.cpp: In function 'Rcpp::IntegerVector accessibleGenotypesPeaksLandscape(Rcpp::IntegerMatrix, Rcpp::NumericVector, Rcpp::IntegerVector, double, bool)':
accessible_genotypes.cpp:224:7: warning: unused variable 'numMutdiff' [-Wunused-variable]
   int numMutdiff = 0;
       ^
C:/Rtools/mingw_32/bin/g++  -std=gnu++11 -I"C:/Users/BIOCBU˜1/BBS-3˜1.6-B/R/include" -DNDEBUG  -I"C:/Users/biocbuild/bbs-3.6-bioc/R/library/Rcpp/include"   -I"C:/local323/include"     -O2 -Wall  -mtune=generic -c bnb_common.cpp -o bnb_common.o
C:/Rtools/mingw_32/bin/g++  -std=gnu++11 -I"C:/Users/BIOCBU˜1/BBS-3˜1.6-B/R/include" -DNDEBUG  -I"C:/Users/biocbuild/bbs-3.6-bioc/R/library/Rcpp/include"   -I"C:/local323/include"     -O2 -Wall  -mtune=generic -c new_restrict.cpp -o new_restrict.o
C:/Rtools/mingw_32/bin/g++  -std=gnu++11 -I"C:/Users/BIOCBU˜1/BBS-3˜1.6-B/R/include" -DNDEBUG  -I"C:/Users/biocbuild/bbs-3.6-bioc/R/library/Rcpp/include"   -I"C:/local323/include"     -O2 -Wall  -mtune=generic -c new_restrict_former_print_utils.cpp -o new_restrict_former_print_utils.o
C:/Rtools/mingw_32/bin/g++ -shared -s -static-libgcc -o OncoSimulR.dll tmp.def BNB_nr.o BNB_v1.o OncoSimulR_init.o RcppExports.o accessible_genotypes.o bnb_common.o new_restrict.o new_restrict_former_print_utils.o -LC:/local323/lib/i386 -LC:/local323/lib -LC:/Users/BIOCBU˜1/BBS-3˜1.6-B/R/bin/i386 -lR
installing to C:/Users/biocbuild/bbs-3.6-bioc/meat/OncoSimulR.buildbin-libdir/OncoSimulR/libs/i386
** R
** data
** inst
** preparing package for lazy loading
** help
*** installing help indices
  converting help for package 'OncoSimulR'
    finding HTML links ... done
    OncoSimulWide2Long                      html  
    POM                                     html  
    allFitnessEffects                       html  
    benchmarks                              html  
    evalAllGenotypes                        html  
    example-missing-drivers                 html  
    examplePosets                           html  
    examplesFitnessEffects                  html  
    mcfLs                                   html  
    oncoSimulIndiv                          html  
Rd warning: C:/Users/biocbuild/bbs-3.6-bioc/tmpdir/RtmpKYqleO/R.INSTALL8e86f736698/OncoSimulR/man/oncoSimulIndiv.Rd:570: missing file link 'mclapply'
    plot.fitnessEffects                     html  
    plot.oncosimul                          html  
    finding level-2 HTML links ... done

    plotClonePhylog                         html  
    plotFitnessLandscape                    html  
    plotPoset                               html  
    poset                                   html  
    rfitness                                html  
    samplePop                               html  
    simOGraph                               html  
    to_Magellan                             html  
** building package indices
** installing vignettes
** testing if installed package can be loaded
In R CMD INSTALL

install for x64

* installing *source* package 'OncoSimulR' ...
** libs
C:/Rtools/mingw_64/bin/g++  -std=gnu++11 -I"C:/Users/BIOCBU˜1/BBS-3˜1.6-B/R/include" -DNDEBUG  -I"C:/Users/biocbuild/bbs-3.6-bioc/R/library/Rcpp/include"   -I"C:/local323/include"     -O2 -Wall  -mtune=generic -c BNB_nr.cpp -o BNB_nr.o
C:/Rtools/mingw_64/bin/g++  -std=gnu++11 -I"C:/Users/BIOCBU˜1/BBS-3˜1.6-B/R/include" -DNDEBUG  -I"C:/Users/biocbuild/bbs-3.6-bioc/R/library/Rcpp/include"   -I"C:/local323/include"     -O2 -Wall  -mtune=generic -c BNB_v1.cpp -o BNB_v1.o
C:/Rtools/mingw_64/bin/gcc  -I"C:/Users/BIOCBU˜1/BBS-3˜1.6-B/R/include" -DNDEBUG  -I"C:/Users/biocbuild/bbs-3.6-bioc/R/library/Rcpp/include"   -I"C:/local323/include"     -O2 -Wall  -std=gnu99 -mtune=generic -c OncoSimulR_init.c -o OncoSimulR_init.o
C:/Rtools/mingw_64/bin/g++  -std=gnu++11 -I"C:/Users/BIOCBU˜1/BBS-3˜1.6-B/R/include" -DNDEBUG  -I"C:/Users/biocbuild/bbs-3.6-bioc/R/library/Rcpp/include"   -I"C:/local323/include"     -O2 -Wall  -mtune=generic -c RcppExports.cpp -o RcppExports.o
C:/Rtools/mingw_64/bin/g++  -std=gnu++11 -I"C:/Users/BIOCBU˜1/BBS-3˜1.6-B/R/include" -DNDEBUG  -I"C:/Users/biocbuild/bbs-3.6-bioc/R/library/Rcpp/include"   -I"C:/local323/include"     -O2 -Wall  -mtune=generic -c accessible_genotypes.cpp -o accessible_genotypes.o
accessible_genotypes.cpp: In function 'Rcpp::IntegerVector accessibleGenotypesPeaksLandscape(Rcpp::IntegerMatrix, Rcpp::NumericVector, Rcpp::IntegerVector, double, bool)':
accessible_genotypes.cpp:224:7: warning: unused variable 'numMutdiff' [-Wunused-variable]
   int numMutdiff = 0;
       ^
C:/Rtools/mingw_64/bin/g++  -std=gnu++11 -I"C:/Users/BIOCBU˜1/BBS-3˜1.6-B/R/include" -DNDEBUG  -I"C:/Users/biocbuild/bbs-3.6-bioc/R/library/Rcpp/include"   -I"C:/local323/include"     -O2 -Wall  -mtune=generic -c bnb_common.cpp -o bnb_common.o
C:/Rtools/mingw_64/bin/g++  -std=gnu++11 -I"C:/Users/BIOCBU˜1/BBS-3˜1.6-B/R/include" -DNDEBUG  -I"C:/Users/biocbuild/bbs-3.6-bioc/R/library/Rcpp/include"   -I"C:/local323/include"     -O2 -Wall  -mtune=generic -c new_restrict.cpp -o new_restrict.o
C:/Rtools/mingw_64/bin/g++  -std=gnu++11 -I"C:/Users/BIOCBU˜1/BBS-3˜1.6-B/R/include" -DNDEBUG  -I"C:/Users/biocbuild/bbs-3.6-bioc/R/library/Rcpp/include"   -I"C:/local323/include"     -O2 -Wall  -mtune=generic -c new_restrict_former_print_utils.cpp -o new_restrict_former_print_utils.o
C:/Rtools/mingw_64/bin/g++ -shared -s -static-libgcc -o OncoSimulR.dll tmp.def BNB_nr.o BNB_v1.o OncoSimulR_init.o RcppExports.o accessible_genotypes.o bnb_common.o new_restrict.o new_restrict_former_print_utils.o -LC:/local323/lib/x64 -LC:/local323/lib -LC:/Users/BIOCBU˜1/BBS-3˜1.6-B/R/bin/x64 -lR
installing to C:/Users/biocbuild/bbs-3.6-bioc/meat/OncoSimulR.buildbin-libdir/OncoSimulR/libs/x64
** testing if installed package can be loaded
* MD5 sums
packaged installation of 'OncoSimulR' as OncoSimulR_2.8.0.zip
* DONE (OncoSimulR)
In R CMD INSTALL
In R CMD INSTALL

Tests output

OncoSimulR.Rcheck/tests_i386/testthat.Rout


R version 3.4.4 (2018-03-15) -- "Someone to Lean On"
Copyright (C) 2018 The R Foundation for Statistical Computing
Platform: i386-w64-mingw32/i386 (32-bit)

R is free software and comes with ABSOLUTELY NO WARRANTY.
You are welcome to redistribute it under certain conditions.
Type 'license()' or 'licence()' for distribution details.

R is a collaborative project with many contributors.
Type 'contributors()' for more information and
'citation()' on how to cite R or R packages in publications.

Type 'demo()' for some demos, 'help()' for on-line help, or
'help.start()' for an HTML browser interface to help.
Type 'q()' to quit R.

> library(testthat)
> # library(OncoSimulR)
> 
> test_check("OncoSimulR")
Loading required package: OncoSimulR

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 ... output from mue11

Individual OncoSimul trajectory with call:
 oncoSimulIndiv(fp = fe31, model = "McFL", mu = 1e-06, detectionSize = 5e+06, 
    initSize = 1e+05, finalTime = 5, onlyCancer = FALSE)

  NumClones TotalPopSize LargestClone MaxNumDrivers MaxDriversLast
1         7        99552        99538             1              0
  NumDriversLargestPop TotalPresentDrivers FinalTime NumIter HittedWallTime
1                    0                   1         5     206          FALSE
  HittedMaxTries     errorMF minDMratio minBMratio OccurringDrivers
1          FALSE 0.001230723    99677.1      1e+05               g2

Final population composition:
  Genotype     N
1          99538
2       g2     0
3       g3     5
4       g6     0
5       g8     1
6       g9     0
7      g10     8

 Hitted wall time. Exiting.
 Hitting wall time is regarded as an error. 

 Using  17400  as seed for C++ generator



*** Looping through 5.2. Iter = 1 


  iteration 1; minNextMutationTime = 11; timeNextPopSample = 1; popParams.size() = 1

 We are SAMPLING at time 1



*** Looping through 5.2. Iter = 2 


  iteration 2; minNextMutationTime = 12; timeNextPopSample = 2; popParams.size() = 1

 We are SAMPLING at time 2



*** Looping through 5.2. Iter = 3 


  iteration 3; minNextMutationTime = 13; timeNextPopSample = 3; popParams.size() = 1

 We are SAMPLING at time 3



*** Looping through 5.2. Iter = 4 


  iteration 4; minNextMutationTime = 14; timeNextPopSample = 4; popParams.size() = 1

 We are SAMPLING at time 4



*** Looping through 5.2. Iter = 5 


  iteration 5; minNextMutationTime = 15; timeNextPopSample = 5; popParams.size() = 1

 We are SAMPLING at time 5



*** Looping through 5.2. Iter = 6 


  iteration 6; minNextMutationTime = 16; timeNextPopSample = 6; popParams.size() = 1

 We are SAMPLING at time 6



*** Looping through 5.2. Iter = 7 


  iteration 7; minNextMutationTime = 17; timeNextPopSample = 7; popParams.size() = 1

 We are SAMPLING at time 7



*** Looping through 5.2. Iter = 8 


  iteration 8; minNextMutationTime = 18; timeNextPopSample = 8; popParams.size() = 1

 We are SAMPLING at time 8



*** Looping through 5.2. Iter = 9 


  iteration 9; minNextMutationTime = 19; timeNextPopSample = 9; popParams.size() = 1

 We are SAMPLING at time 9



*** Looping through 5.2. Iter = 10 


  iteration 10; minNextMutationTime = 20; timeNextPopSample = 10; popParams.size() = 1

 We are SAMPLING at time 10



*** Looping through 5.2. Iter = 11 


  iteration 11; minNextMutationTime = 21; timeNextPopSample = 11; popParams.size() = 1

 We are SAMPLING at time 11



*** Looping through 5.2. Iter = 12 


  iteration 12; minNextMutationTime = 22; timeNextPopSample = 12; popParams.size() = 1

 We are SAMPLING at time 12



*** Looping through 5.2. Iter = 13 


  iteration 13; minNextMutationTime = 23; timeNextPopSample = 13; popParams.size() = 1

 We are SAMPLING at time 13



*** Looping through 5.2. Iter = 14 


  iteration 14; minNextMutationTime = 24; timeNextPopSample = 14; popParams.size() = 1

 We are SAMPLING at time 14



*** Looping through 5.2. Iter = 15 


  iteration 15; minNextMutationTime = 25; timeNextPopSample = 15; popParams.size() = 1

 We are SAMPLING at time 15



*** Looping through 5.2. Iter = 16 


  iteration 16; minNextMutationTime = 26; timeNextPopSample = 16; popParams.size() = 1

 We are SAMPLING at time 16



*** Looping through 5.2. Iter = 17 


  iteration 17; minNextMutationTime = 27; timeNextPopSample = 17; popParams.size() = 1

 We are SAMPLING at time 17



*** Looping through 5.2. Iter = 18 


  iteration 18; minNextMutationTime = 28; timeNextPopSample = 18; popParams.size() = 1

 We are SAMPLING at time 18



*** Looping through 5.2. Iter = 19 


  iteration 19; minNextMutationTime = 29; timeNextPopSample = 19; popParams.size() = 1

 We are SAMPLING at time 19



*** Looping through 5.2. Iter = 20 


  iteration 20; minNextMutationTime = 30; timeNextPopSample = 20; popParams.size() = 1

 We are SAMPLING at time 20



*** Looping through 5.2. Iter = 21 


  iteration 21; minNextMutationTime = 31; timeNextPopSample = 21; popParams.size() = 1

 We are SAMPLING at time 21



*** Looping through 5.2. Iter = 22 


  iteration 22; minNextMutationTime = 32; timeNextPopSample = 22; popParams.size() = 1

 We are SAMPLING at time 22



*** Looping through 5.2. Iter = 23 


  iteration 23; minNextMutationTime = 33; timeNextPopSample = 23; popParams.size() = 1

 We are SAMPLING at time 23



*** Looping through 5.2. Iter = 24 


  iteration 24; minNextMutationTime = 34; timeNextPopSample = 24; popParams.size() = 1

 We are SAMPLING at time 24



*** Looping through 5.2. Iter = 25 


  iteration 25; minNextMutationTime = 35; timeNextPopSample = 25; popParams.size() = 1

 We are SAMPLING at time 25



*** Looping through 5.2. Iter = 26 


  iteration 26; minNextMutationTime = 36; timeNextPopSample = 26; popParams.size() = 1

 We are SAMPLING at time 26



*** Looping through 5.2. Iter = 27 


  iteration 27; minNextMutationTime = 37; timeNextPopSample = 27; popParams.size() = 1

 We are SAMPLING at time 27



*** Looping through 5.2. Iter = 28 


  iteration 28; minNextMutationTime = 27.4816; timeNextPopSample = 28; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 29 


  iteration 29; minNextMutationTime = 38; timeNextPopSample = 28; popParams.size() = 2

 We are SAMPLING at time 28



*** Looping through 5.2. Iter = 30 


  iteration 30; minNextMutationTime = 39; timeNextPopSample = 29; popParams.size() = 2

 We are SAMPLING at time 29



*** Looping through 5.2. Iter = 31 


  iteration 31; minNextMutationTime = 40; timeNextPopSample = 30; popParams.size() = 1

 We are SAMPLING at time 30



*** Looping through 5.2. Iter = 32 


  iteration 32; minNextMutationTime = 30.8538; timeNextPopSample = 31; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 33 


  iteration 33; minNextMutationTime = 41; timeNextPopSample = 31; popParams.size() = 2

 We are SAMPLING at time 31



*** Looping through 5.2. Iter = 34 


  iteration 34; minNextMutationTime = 42; timeNextPopSample = 32; popParams.size() = 2

 We are SAMPLING at time 32



*** Looping through 5.2. Iter = 35 


  iteration 35; minNextMutationTime = 43; timeNextPopSample = 33; popParams.size() = 1

 We are SAMPLING at time 33



*** Looping through 5.2. Iter = 36 


  iteration 36; minNextMutationTime = 44; timeNextPopSample = 34; popParams.size() = 1

 We are SAMPLING at time 34



*** Looping through 5.2. Iter = 37 


  iteration 37; minNextMutationTime = 45; timeNextPopSample = 35; popParams.size() = 1

 We are SAMPLING at time 35



*** Looping through 5.2. Iter = 38 


  iteration 38; minNextMutationTime = 46; timeNextPopSample = 36; popParams.size() = 1

 We are SAMPLING at time 36



*** Looping through 5.2. Iter = 39 


  iteration 39; minNextMutationTime = 47; timeNextPopSample = 37; popParams.size() = 1

 We are SAMPLING at time 37



*** Looping through 5.2. Iter = 40 


  iteration 40; minNextMutationTime = 37.6018; timeNextPopSample = 38; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 41 


  iteration 41; minNextMutationTime = 48; timeNextPopSample = 38; popParams.size() = 2

 We are SAMPLING at time 38



*** Looping through 5.2. Iter = 42 


  iteration 42; minNextMutationTime = 49; timeNextPopSample = 39; popParams.size() = 2

 We are SAMPLING at time 39



*** Looping through 5.2. Iter = 43 


  iteration 43; minNextMutationTime = 50; timeNextPopSample = 40; popParams.size() = 2

 We are SAMPLING at time 40



*** Looping through 5.2. Iter = 44 


  iteration 44; minNextMutationTime = 51; timeNextPopSample = 41; popParams.size() = 2

 We are SAMPLING at time 41



*** Looping through 5.2. Iter = 45 


  iteration 45; minNextMutationTime = 52; timeNextPopSample = 42; popParams.size() = 1

 We are SAMPLING at time 42



*** Looping through 5.2. Iter = 46 


  iteration 46; minNextMutationTime = 53; timeNextPopSample = 43; popParams.size() = 1

 We are SAMPLING at time 43



*** Looping through 5.2. Iter = 47 


  iteration 47; minNextMutationTime = 43.5756; timeNextPopSample = 44; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 48 


  iteration 48; minNextMutationTime = 54; timeNextPopSample = 44; popParams.size() = 2

 We are SAMPLING at time 44



*** Looping through 5.2. Iter = 49 


  iteration 49; minNextMutationTime = 55; timeNextPopSample = 45; popParams.size() = 2

 We are SAMPLING at time 45



*** Looping through 5.2. Iter = 50 


  iteration 50; minNextMutationTime = 56; timeNextPopSample = 46; popParams.size() = 1

 We are SAMPLING at time 46



*** Looping through 5.2. Iter = 51 


  iteration 51; minNextMutationTime = 46.7129; timeNextPopSample = 47; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 52 


  iteration 52; minNextMutationTime = 57; timeNextPopSample = 47; popParams.size() = 2

 We are SAMPLING at time 47



*** Looping through 5.2. Iter = 53 


  iteration 53; minNextMutationTime = 58; timeNextPopSample = 48; popParams.size() = 1

 We are SAMPLING at time 48



*** Looping through 5.2. Iter = 54 


  iteration 54; minNextMutationTime = 59; timeNextPopSample = 49; popParams.size() = 1

 We are SAMPLING at time 49



*** Looping through 5.2. Iter = 55 


  iteration 55; minNextMutationTime = 60; timeNextPopSample = 50; popParams.size() = 1

 We are SAMPLING at time 50



*** Looping through 5.2. Iter = 56 


  iteration 56; minNextMutationTime = 61; timeNextPopSample = 51; popParams.size() = 1

 We are SAMPLING at time 51



*** Looping through 5.2. Iter = 57 


  iteration 57; minNextMutationTime = 62; timeNextPopSample = 52; popParams.size() = 1

 We are SAMPLING at time 52



*** Looping through 5.2. Iter = 58 


  iteration 58; minNextMutationTime = 63; timeNextPopSample = 53; popParams.size() = 1

 We are SAMPLING at time 53



*** Looping through 5.2. Iter = 59 


  iteration 59; minNextMutationTime = 64; timeNextPopSample = 54; popParams.size() = 1

 We are SAMPLING at time 54



*** Looping through 5.2. Iter = 60 


  iteration 60; minNextMutationTime = 65; timeNextPopSample = 55; popParams.size() = 1

 We are SAMPLING at time 55



*** Looping through 5.2. Iter = 61 


  iteration 61; minNextMutationTime = 66; timeNextPopSample = 56; popParams.size() = 1

 We are SAMPLING at time 56



*** Looping through 5.2. Iter = 62 


  iteration 62; minNextMutationTime = 67; timeNextPopSample = 57; popParams.size() = 1

 We are SAMPLING at time 57



*** Looping through 5.2. Iter = 63 


  iteration 63; minNextMutationTime = 68; timeNextPopSample = 58; popParams.size() = 1

 We are SAMPLING at time 58



*** Looping through 5.2. Iter = 64 


  iteration 64; minNextMutationTime = 69; timeNextPopSample = 59; popParams.size() = 1

 We are SAMPLING at time 59



*** Looping through 5.2. Iter = 65 


  iteration 65; minNextMutationTime = 70; timeNextPopSample = 60; popParams.size() = 1

 We are SAMPLING at time 60



*** Looping through 5.2. Iter = 66 


  iteration 66; minNextMutationTime = 60.5645; timeNextPopSample = 61; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 67 


  iteration 67; minNextMutationTime = 71; timeNextPopSample = 61; popParams.size() = 2

 We are SAMPLING at time 61



*** Looping through 5.2. Iter = 68 


  iteration 68; minNextMutationTime = 72; timeNextPopSample = 62; popParams.size() = 2

 We are SAMPLING at time 62



*** Looping through 5.2. Iter = 69 


  iteration 69; minNextMutationTime = 73; timeNextPopSample = 63; popParams.size() = 2

 We are SAMPLING at time 63



*** Looping through 5.2. Iter = 70 


  iteration 70; minNextMutationTime = 74; timeNextPopSample = 64; popParams.size() = 2

 We are SAMPLING at time 64



*** Looping through 5.2. Iter = 71 


  iteration 71; minNextMutationTime = 75; timeNextPopSample = 65; popParams.size() = 2

 We are SAMPLING at time 65



*** Looping through 5.2. Iter = 72 


  iteration 72; minNextMutationTime = 76; timeNextPopSample = 66; popParams.size() = 1

 We are SAMPLING at time 66



*** Looping through 5.2. Iter = 73 


  iteration 73; minNextMutationTime = 77; timeNextPopSample = 67; popParams.size() = 1

 We are SAMPLING at time 67



*** Looping through 5.2. Iter = 74 


  iteration 74; minNextMutationTime = 78; timeNextPopSample = 68; popParams.size() = 1

 We are SAMPLING at time 68



*** Looping through 5.2. Iter = 75 


  iteration 75; minNextMutationTime = 79; timeNextPopSample = 69; popParams.size() = 1

 We are SAMPLING at time 69



*** Looping through 5.2. Iter = 76 


  iteration 76; minNextMutationTime = 80; timeNextPopSample = 70; popParams.size() = 1

 We are SAMPLING at time 70



*** Looping through 5.2. Iter = 77 


  iteration 77; minNextMutationTime = 81; timeNextPopSample = 71; popParams.size() = 1

 We are SAMPLING at time 71



*** Looping through 5.2. Iter = 78 


  iteration 78; minNextMutationTime = 82; timeNextPopSample = 72; popParams.size() = 1

 We are SAMPLING at time 72



*** Looping through 5.2. Iter = 79 


  iteration 79; minNextMutationTime = 83; timeNextPopSample = 73; popParams.size() = 1

 We are SAMPLING at time 73



*** Looping through 5.2. Iter = 80 


  iteration 80; minNextMutationTime = 84; timeNextPopSample = 74; popParams.size() = 1

 We are SAMPLING at time 74



*** Looping through 5.2. Iter = 81 


  iteration 81; minNextMutationTime = 85; timeNextPopSample = 75; popParams.size() = 1

 We are SAMPLING at time 75



*** Looping through 5.2. Iter = 82 


  iteration 82; minNextMutationTime = 86; timeNextPopSample = 76; popParams.size() = 1

 We are SAMPLING at time 76



*** Looping through 5.2. Iter = 83 


  iteration 83; minNextMutationTime = 87; timeNextPopSample = 77; popParams.size() = 1

 We are SAMPLING at time 77



*** Looping through 5.2. Iter = 84 


  iteration 84; minNextMutationTime = 88; timeNextPopSample = 78; popParams.size() = 1

 We are SAMPLING at time 78



*** Looping through 5.2. Iter = 85 


  iteration 85; minNextMutationTime = 89; timeNextPopSample = 79; popParams.size() = 1

 We are SAMPLING at time 79



*** Looping through 5.2. Iter = 86 


  iteration 86; minNextMutationTime = 90; timeNextPopSample = 80; popParams.size() = 1

 We are SAMPLING at time 80



*** Looping through 5.2. Iter = 87 


  iteration 87; minNextMutationTime = 91; timeNextPopSample = 81; popParams.size() = 1

 We are SAMPLING at time 81



*** Looping through 5.2. Iter = 88 


  iteration 88; minNextMutationTime = 92; timeNextPopSample = 82; popParams.size() = 1

 We are SAMPLING at time 82



*** Looping through 5.2. Iter = 89 


  iteration 89; minNextMutationTime = 93; timeNextPopSample = 83; popParams.size() = 1

 We are SAMPLING at time 83



*** Looping through 5.2. Iter = 90 


  iteration 90; minNextMutationTime = 94; timeNextPopSample = 84; popParams.size() = 1

 We are SAMPLING at time 84



*** Looping through 5.2. Iter = 91 


  iteration 91; minNextMutationTime = 95; timeNextPopSample = 85; popParams.size() = 1

 We are SAMPLING at time 85



*** Looping through 5.2. Iter = 92 


  iteration 92; minNextMutationTime = 96; timeNextPopSample = 86; popParams.size() = 1

 We are SAMPLING at time 86



*** Looping through 5.2. Iter = 93 


  iteration 93; minNextMutationTime = 86.7149; timeNextPopSample = 87; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 94 


  iteration 94; minNextMutationTime = 97; timeNextPopSample = 87; popParams.size() = 2

 We are SAMPLING at time 87



*** Looping through 5.2. Iter = 95 


  iteration 95; minNextMutationTime = 98; timeNextPopSample = 88; popParams.size() = 2

 We are SAMPLING at time 88



*** Looping through 5.2. Iter = 96 


  iteration 96; minNextMutationTime = 99; timeNextPopSample = 89; popParams.size() = 1

 We are SAMPLING at time 89



*** Looping through 5.2. Iter = 97 


  iteration 97; minNextMutationTime = 89.7251; timeNextPopSample = 90; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 98 


  iteration 98; minNextMutationTime = 100; timeNextPopSample = 90; popParams.size() = 2

 We are SAMPLING at time 90



*** Looping through 5.2. Iter = 99 


  iteration 99; minNextMutationTime = 90.3587; timeNextPopSample = 91; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 100 


  iteration 100; minNextMutationTime = 101; timeNextPopSample = 91; popParams.size() = 3

 We are SAMPLING at time 91



*** Looping through 5.2. Iter = 101 


  iteration 101; minNextMutationTime = 102; timeNextPopSample = 92; popParams.size() = 2

 We are SAMPLING at time 92



*** Looping through 5.2. Iter = 102 


  iteration 102; minNextMutationTime = 103; timeNextPopSample = 93; popParams.size() = 2

 We are SAMPLING at time 93



*** Looping through 5.2. Iter = 103 


  iteration 103; minNextMutationTime = 104; timeNextPopSample = 94; popParams.size() = 2

 We are SAMPLING at time 94



*** Looping through 5.2. Iter = 104 


  iteration 104; minNextMutationTime = 105; timeNextPopSample = 95; popParams.size() = 2

 We are SAMPLING at time 95



*** Looping through 5.2. Iter = 105 


  iteration 105; minNextMutationTime = 106; timeNextPopSample = 96; popParams.size() = 1

 We are SAMPLING at time 96



*** Looping through 5.2. Iter = 106 


  iteration 106; minNextMutationTime = 107; timeNextPopSample = 97; popParams.size() = 1

 We are SAMPLING at time 97



*** Looping through 5.2. Iter = 107 


  iteration 107; minNextMutationTime = 108; timeNextPopSample = 98; popParams.size() = 1

 We are SAMPLING at time 98



*** Looping through 5.2. Iter = 108 


  iteration 108; minNextMutationTime = 109; timeNextPopSample = 99; popParams.size() = 1

 We are SAMPLING at time 99



*** Looping through 5.2. Iter = 109 


  iteration 109; minNextMutationTime = 110; timeNextPopSample = 100; popParams.size() = 1

 We are SAMPLING at time 100



*** Looping through 5.2. Iter = 110 


  iteration 110; minNextMutationTime = 111; timeNextPopSample = 101; popParams.size() = 1

 We are SAMPLING at time 101



*** Looping through 5.2. Iter = 111 


  iteration 111; minNextMutationTime = 112; timeNextPopSample = 102; popParams.size() = 1

 We are SAMPLING at time 102



*** Looping through 5.2. Iter = 112 


  iteration 112; minNextMutationTime = 113; timeNextPopSample = 103; popParams.size() = 1

 We are SAMPLING at time 103



*** Looping through 5.2. Iter = 113 


  iteration 113; minNextMutationTime = 114; timeNextPopSample = 104; popParams.size() = 1

 We are SAMPLING at time 104



*** Looping through 5.2. Iter = 114 


  iteration 114; minNextMutationTime = 115; timeNextPopSample = 105; popParams.size() = 1

 We are SAMPLING at time 105



*** Looping through 5.2. Iter = 115 


  iteration 115; minNextMutationTime = 116; timeNextPopSample = 106; popParams.size() = 1

 We are SAMPLING at time 106



*** Looping through 5.2. Iter = 116 


  iteration 116; minNextMutationTime = 117; timeNextPopSample = 107; popParams.size() = 1

 We are SAMPLING at time 107



*** Looping through 5.2. Iter = 117 


  iteration 117; minNextMutationTime = 118; timeNextPopSample = 108; popParams.size() = 1

 We are SAMPLING at time 108



*** Looping through 5.2. Iter = 118 


  iteration 118; minNextMutationTime = 119; timeNextPopSample = 109; popParams.size() = 1

 We are SAMPLING at time 109



*** Looping through 5.2. Iter = 119 


  iteration 119; minNextMutationTime = 120; timeNextPopSample = 110; popParams.size() = 1

 We are SAMPLING at time 110



*** Looping through 5.2. Iter = 120 


  iteration 120; minNextMutationTime = 121; timeNextPopSample = 111; popParams.size() = 1

 We are SAMPLING at time 111



*** Looping through 5.2. Iter = 121 


  iteration 121; minNextMutationTime = 111.921; timeNextPopSample = 112; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 122 


  iteration 122; minNextMutationTime = 122; timeNextPopSample = 112; popParams.size() = 2

 We are SAMPLING at time 112



*** Looping through 5.2. Iter = 123 


  iteration 123; minNextMutationTime = 123; timeNextPopSample = 113; popParams.size() = 2

 We are SAMPLING at time 113



*** Looping through 5.2. Iter = 124 


  iteration 124; minNextMutationTime = 124; timeNextPopSample = 114; popParams.size() = 1

 We are SAMPLING at time 114



*** Looping through 5.2. Iter = 125 


  iteration 125; minNextMutationTime = 125; timeNextPopSample = 115; popParams.size() = 1

 We are SAMPLING at time 115



*** Looping through 5.2. Iter = 126 


  iteration 126; minNextMutationTime = 126; timeNextPopSample = 116; popParams.size() = 1

 We are SAMPLING at time 116



*** Looping through 5.2. Iter = 127 


  iteration 127; minNextMutationTime = 116.291; timeNextPopSample = 117; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 128 


  iteration 128; minNextMutationTime = 127; timeNextPopSample = 117; popParams.size() = 2

 We are SAMPLING at time 117



*** Looping through 5.2. Iter = 129 


  iteration 129; minNextMutationTime = 128; timeNextPopSample = 118; popParams.size() = 2

 We are SAMPLING at time 118



*** Looping through 5.2. Iter = 130 


  iteration 130; minNextMutationTime = 129; timeNextPopSample = 119; popParams.size() = 1

 We are SAMPLING at time 119



*** Looping through 5.2. Iter = 131 


  iteration 131; minNextMutationTime = 119.614; timeNextPopSample = 120; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 132 


  iteration 132; minNextMutationTime = 130; timeNextPopSample = 120; popParams.size() = 2

 We are SAMPLING at time 120



*** Looping through 5.2. Iter = 133 


  iteration 133; minNextMutationTime = 131; timeNextPopSample = 121; popParams.size() = 2

 We are SAMPLING at time 121



*** Looping through 5.2. Iter = 134 


  iteration 134; minNextMutationTime = 121.049; timeNextPopSample = 122; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 135 


  iteration 135; minNextMutationTime = 132; timeNextPopSample = 122; popParams.size() = 2

 We are SAMPLING at time 122



*** Looping through 5.2. Iter = 136 


  iteration 136; minNextMutationTime = 133; timeNextPopSample = 123; popParams.size() = 1

 We are SAMPLING at time 123



*** Looping through 5.2. Iter = 137 


  iteration 137; minNextMutationTime = 134; timeNextPopSample = 124; popParams.size() = 1

 We are SAMPLING at time 124



*** Looping through 5.2. Iter = 138 


  iteration 138; minNextMutationTime = 135; timeNextPopSample = 125; popParams.size() = 1

 We are SAMPLING at time 125



*** Looping through 5.2. Iter = 139 


  iteration 139; minNextMutationTime = 136; timeNextPopSample = 126; popParams.size() = 1

 We are SAMPLING at time 126



*** Looping through 5.2. Iter = 140 


  iteration 140; minNextMutationTime = 137; timeNextPopSample = 127; popParams.size() = 1

 We are SAMPLING at time 127



*** Looping through 5.2. Iter = 141 


  iteration 141; minNextMutationTime = 138; timeNextPopSample = 128; popParams.size() = 1

 We are SAMPLING at time 128



*** Looping through 5.2. Iter = 142 


  iteration 142; minNextMutationTime = 139; timeNextPopSample = 129; popParams.size() = 1

 We are SAMPLING at time 129



*** Looping through 5.2. Iter = 143 


  iteration 143; minNextMutationTime = 140; timeNextPopSample = 130; popParams.size() = 1

 We are SAMPLING at time 130



*** Looping through 5.2. Iter = 144 


  iteration 144; minNextMutationTime = 141; timeNextPopSample = 131; popParams.size() = 1

 We are SAMPLING at time 131



*** Looping through 5.2. Iter = 145 


  iteration 145; minNextMutationTime = 142; timeNextPopSample = 132; popParams.size() = 1

 We are SAMPLING at time 132



*** Looping through 5.2. Iter = 146 


  iteration 146; minNextMutationTime = 143; timeNextPopSample = 133; popParams.size() = 1

 We are SAMPLING at time 133



*** Looping through 5.2. Iter = 147 


  iteration 147; minNextMutationTime = 133.209; timeNextPopSample = 134; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 148 


  iteration 148; minNextMutationTime = 144; timeNextPopSample = 134; popParams.size() = 2

 We are SAMPLING at time 134



*** Looping through 5.2. Iter = 149 


  iteration 149; minNextMutationTime = 145; timeNextPopSample = 135; popParams.size() = 2

 We are SAMPLING at time 135



*** Looping through 5.2. Iter = 150 


  iteration 150; minNextMutationTime = 146; timeNextPopSample = 136; popParams.size() = 1

 We are SAMPLING at time 136



*** Looping through 5.2. Iter = 151 


  iteration 151; minNextMutationTime = 147; timeNextPopSample = 137; popParams.size() = 1

 We are SAMPLING at time 137



*** Looping through 5.2. Iter = 152 


  iteration 152; minNextMutationTime = 148; timeNextPopSample = 138; popParams.size() = 1

 We are SAMPLING at time 138



*** Looping through 5.2. Iter = 153 


  iteration 153; minNextMutationTime = 149; timeNextPopSample = 139; popParams.size() = 1

 We are SAMPLING at time 139



*** Looping through 5.2. Iter = 154 


  iteration 154; minNextMutationTime = 150; timeNextPopSample = 140; popParams.size() = 1

 We are SAMPLING at time 140



*** Looping through 5.2. Iter = 155 


  iteration 155; minNextMutationTime = 151; timeNextPopSample = 141; popParams.size() = 1

 We are SAMPLING at time 141



*** Looping through 5.2. Iter = 156 


  iteration 156; minNextMutationTime = 141.895; timeNextPopSample = 142; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 157 


  iteration 157; minNextMutationTime = 152; timeNextPopSample = 142; popParams.size() = 2

 We are SAMPLING at time 142



*** Looping through 5.2. Iter = 158 


  iteration 158; minNextMutationTime = 153; timeNextPopSample = 143; popParams.size() = 2

 We are SAMPLING at time 143



*** Looping through 5.2. Iter = 159 


  iteration 159; minNextMutationTime = 154; timeNextPopSample = 144; popParams.size() = 2

 We are SAMPLING at time 144



*** Looping through 5.2. Iter = 160 


  iteration 160; minNextMutationTime = 155; timeNextPopSample = 145; popParams.size() = 2

 We are SAMPLING at time 145



*** Looping through 5.2. Iter = 161 


  iteration 161; minNextMutationTime = 156; timeNextPopSample = 146; popParams.size() = 2

 We are SAMPLING at time 146



*** Looping through 5.2. Iter = 162 


  iteration 162; minNextMutationTime = 157; timeNextPopSample = 147; popParams.size() = 2

 We are SAMPLING at time 147



*** Looping through 5.2. Iter = 163 


  iteration 163; minNextMutationTime = 158; timeNextPopSample = 148; popParams.size() = 2

 We are SAMPLING at time 148



*** Looping through 5.2. Iter = 164 


  iteration 164; minNextMutationTime = 148.65; timeNextPopSample = 149; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 165 


  iteration 165; minNextMutationTime = 159; timeNextPopSample = 149; popParams.size() = 3

 We are SAMPLING at time 149



*** Looping through 5.2. Iter = 166 


  iteration 166; minNextMutationTime = 160; timeNextPopSample = 150; popParams.size() = 3

 We are SAMPLING at time 150



*** Looping through 5.2. Iter = 167 


  iteration 167; minNextMutationTime = 161; timeNextPopSample = 151; popParams.size() = 3

 We are SAMPLING at time 151



*** Looping through 5.2. Iter = 168 


  iteration 168; minNextMutationTime = 162; timeNextPopSample = 152; popParams.size() = 2

 We are SAMPLING at time 152



*** Looping through 5.2. Iter = 169 


  iteration 169; minNextMutationTime = 163; timeNextPopSample = 153; popParams.size() = 2

 We are SAMPLING at time 153



*** Looping through 5.2. Iter = 170 


  iteration 170; minNextMutationTime = 164; timeNextPopSample = 154; popParams.size() = 1

 We are SAMPLING at time 154



*** Looping through 5.2. Iter = 171 


  iteration 171; minNextMutationTime = 165; timeNextPopSample = 155; popParams.size() = 1

 We are SAMPLING at time 155



*** Looping through 5.2. Iter = 172 


  iteration 172; minNextMutationTime = 166; timeNextPopSample = 156; popParams.size() = 1

 We are SAMPLING at time 156



*** Looping through 5.2. Iter = 173 


  iteration 173; minNextMutationTime = 167; timeNextPopSample = 157; popParams.size() = 1

 We are SAMPLING at time 157



*** Looping through 5.2. Iter = 174 


  iteration 174; minNextMutationTime = 157.14; timeNextPopSample = 158; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 175 


  iteration 175; minNextMutationTime = 157.689; timeNextPopSample = 158; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 176 


  iteration 176; minNextMutationTime = 157.878; timeNextPopSample = 158; popParams.size() = 3

     Creating new species   3         from species 0


*** Looping through 5.2. Iter = 177 


  iteration 177; minNextMutationTime = 168; timeNextPopSample = 158; popParams.size() = 4

 We are SAMPLING at time 158



*** Looping through 5.2. Iter = 178 


  iteration 178; minNextMutationTime = 169; timeNextPopSample = 159; popParams.size() = 4

 We are SAMPLING at time 159



*** Looping through 5.2. Iter = 179 


  iteration 179; minNextMutationTime = 159.023; timeNextPopSample = 160; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 180 


  iteration 180; minNextMutationTime = 170; timeNextPopSample = 160; popParams.size() = 3

 We are SAMPLING at time 160



*** Looping through 5.2. Iter = 181 


  iteration 181; minNextMutationTime = 160.19; timeNextPopSample = 161; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 182 


  iteration 182; minNextMutationTime = 171; timeNextPopSample = 161; popParams.size() = 2

 We are SAMPLING at time 161



*** Looping through 5.2. Iter = 183 


  iteration 183; minNextMutationTime = 172; timeNextPopSample = 162; popParams.size() = 2

 We are SAMPLING at time 162



*** Looping through 5.2. Iter = 184 


  iteration 184; minNextMutationTime = 173; timeNextPopSample = 163; popParams.size() = 2

 We are SAMPLING at time 163



*** Looping through 5.2. Iter = 185 


  iteration 185; minNextMutationTime = 174; timeNextPopSample = 164; popParams.size() = 2

 We are SAMPLING at time 164



*** Looping through 5.2. Iter = 186 


  iteration 186; minNextMutationTime = 175; timeNextPopSample = 165; popParams.size() = 2

 We are SAMPLING at time 165



*** Looping through 5.2. Iter = 187 


  iteration 187; minNextMutationTime = 176; timeNextPopSample = 166; popParams.size() = 2

 We are SAMPLING at time 166



*** Looping through 5.2. Iter = 188 


  iteration 188; minNextMutationTime = 177; timeNextPopSample = 167; popParams.size() = 2

 We are SAMPLING at time 167



*** Looping through 5.2. Iter = 189 


  iteration 189; minNextMutationTime = 178; timeNextPopSample = 168; popParams.size() = 2

 We are SAMPLING at time 168



*** Looping through 5.2. Iter = 190 


  iteration 190; minNextMutationTime = 179; timeNextPopSample = 169; popParams.size() = 2

 We are SAMPLING at time 169



*** Looping through 5.2. Iter = 191 


  iteration 191; minNextMutationTime = 180; timeNextPopSample = 170; popParams.size() = 2

 We are SAMPLING at time 170



*** Looping through 5.2. Iter = 192 


  iteration 192; minNextMutationTime = 181; timeNextPopSample = 171; popParams.size() = 2

 We are SAMPLING at time 171



*** Looping through 5.2. Iter = 193 


  iteration 193; minNextMutationTime = 182; timeNextPopSample = 172; popParams.size() = 2

 We are SAMPLING at time 172



*** Looping through 5.2. Iter = 194 


  iteration 194; minNextMutationTime = 183; timeNextPopSample = 173; popParams.size() = 2

 We are SAMPLING at time 173



*** Looping through 5.2. Iter = 195 


  iteration 195; minNextMutationTime = 184; timeNextPopSample = 174; popParams.size() = 2

 We are SAMPLING at time 174



*** Looping through 5.2. Iter = 196 


  iteration 196; minNextMutationTime = 185; timeNextPopSample = 175; popParams.size() = 2

 We are SAMPLING at time 175



*** Looping through 5.2. Iter = 197 


  iteration 197; minNextMutationTime = 186; timeNextPopSample = 176; popParams.size() = 2

 We are SAMPLING at time 176



*** Looping through 5.2. Iter = 198 


  iteration 198; minNextMutationTime = 187; timeNextPopSample = 177; popParams.size() = 2

 We are SAMPLING at time 177



*** Looping through 5.2. Iter = 199 


  iteration 199; minNextMutationTime = 188; timeNextPopSample = 178; popParams.size() = 2

 We are SAMPLING at time 178



*** Looping through 5.2. Iter = 200 


  iteration 200; minNextMutationTime = 189; timeNextPopSample = 179; popParams.size() = 2

 We are SAMPLING at time 179



*** Looping through 5.2. Iter = 201 


  iteration 201; minNextMutationTime = 190; timeNextPopSample = 180; popParams.size() = 2

 We are SAMPLING at time 180



*** Looping through 5.2. Iter = 202 


  iteration 202; minNextMutationTime = 191; timeNextPopSample = 181; popParams.size() = 2

 We are SAMPLING at time 181



*** Looping through 5.2. Iter = 203 


  iteration 203; minNextMutationTime = 192; timeNextPopSample = 182; popParams.size() = 2

 We are SAMPLING at time 182



*** Looping through 5.2. Iter = 204 


  iteration 204; minNextMutationTime = 193; timeNextPopSample = 183; popParams.size() = 2

 We are SAMPLING at time 183



*** Looping through 5.2. Iter = 205 


  iteration 205; minNextMutationTime = 183.736; timeNextPopSample = 184; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 206 


  iteration 206; minNextMutationTime = 194; timeNextPopSample = 184; popParams.size() = 3

 We are SAMPLING at time 184



*** Looping through 5.2. Iter = 207 


  iteration 207; minNextMutationTime = 184.219; timeNextPopSample = 185; popParams.size() = 3

     Creating new species   3         from species 0


*** Looping through 5.2. Iter = 208 


  iteration 208; minNextMutationTime = 195; timeNextPopSample = 185; popParams.size() = 4

 We are SAMPLING at time 185



*** Looping through 5.2. Iter = 209 


  iteration 209; minNextMutationTime = 196; timeNextPopSample = 186; popParams.size() = 3

 We are SAMPLING at time 186



*** Looping through 5.2. Iter = 210 


  iteration 210; minNextMutationTime = 197; timeNextPopSample = 187; popParams.size() = 3

 We are SAMPLING at time 187



*** Looping through 5.2. Iter = 211 


  iteration 211; minNextMutationTime = 198; timeNextPopSample = 188; popParams.size() = 2

 We are SAMPLING at time 188



*** Looping through 5.2. Iter = 212 


  iteration 212; minNextMutationTime = 199; timeNextPopSample = 189; popParams.size() = 2

 We are SAMPLING at time 189



*** Looping through 5.2. Iter = 213 


  iteration 213; minNextMutationTime = 200; timeNextPopSample = 190; popParams.size() = 2

 We are SAMPLING at time 190



*** Looping through 5.2. Iter = 214 


  iteration 214; minNextMutationTime = 201; timeNextPopSample = 191; popParams.size() = 2

 We are SAMPLING at time 191



*** Looping through 5.2. Iter = 215 


  iteration 215; minNextMutationTime = 202; timeNextPopSample = 192; popParams.size() = 2

 We are SAMPLING at time 192



*** Looping through 5.2. Iter = 216 


  iteration 216; minNextMutationTime = 203; timeNextPopSample = 193; popParams.size() = 2

 We are SAMPLING at time 193



*** Looping through 5.2. Iter = 217 


  iteration 217; minNextMutationTime = 204; timeNextPopSample = 194; popParams.size() = 2

 We are SAMPLING at time 194



*** Looping through 5.2. Iter = 218 


  iteration 218; minNextMutationTime = 205; timeNextPopSample = 195; popParams.size() = 2

 We are SAMPLING at time 195



*** Looping through 5.2. Iter = 219 


  iteration 219; minNextMutationTime = 206; timeNextPopSample = 196; popParams.size() = 2

 We are SAMPLING at time 196



*** Looping through 5.2. Iter = 220 


  iteration 220; minNextMutationTime = 207; timeNextPopSample = 197; popParams.size() = 1

 We are SAMPLING at time 197



*** Looping through 5.2. Iter = 221 


  iteration 221; minNextMutationTime = 208; timeNextPopSample = 198; popParams.size() = 1

 We are SAMPLING at time 198



*** Looping through 5.2. Iter = 222 


  iteration 222; minNextMutationTime = 209; timeNextPopSample = 199; popParams.size() = 1

 We are SAMPLING at time 199



*** Looping through 5.2. Iter = 223 


  iteration 223; minNextMutationTime = 210; timeNextPopSample = 200; popParams.size() = 1

 We are SAMPLING at time 200



*** Looping through 5.2. Iter = 224 


  iteration 224; minNextMutationTime = 211; timeNextPopSample = 201; popParams.size() = 1

 We are SAMPLING at time 201



*** Looping through 5.2. Iter = 225 


  iteration 225; minNextMutationTime = 212; timeNextPopSample = 202; popParams.size() = 1

 We are SAMPLING at time 202



*** Looping through 5.2. Iter = 226 


  iteration 226; minNextMutationTime = 213; timeNextPopSample = 203; popParams.size() = 1

 We are SAMPLING at time 203



*** Looping through 5.2. Iter = 227 


  iteration 227; minNextMutationTime = 214; timeNextPopSample = 204; popParams.size() = 1

 We are SAMPLING at time 204



*** Looping through 5.2. Iter = 228 


  iteration 228; minNextMutationTime = 204.52; timeNextPopSample = 205; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 229 


  iteration 229; minNextMutationTime = 215; timeNextPopSample = 205; popParams.size() = 2

 We are SAMPLING at time 205



*** Looping through 5.2. Iter = 230 


  iteration 230; minNextMutationTime = 216; timeNextPopSample = 206; popParams.size() = 2

 We are SAMPLING at time 206



*** Looping through 5.2. Iter = 231 


  iteration 231; minNextMutationTime = 217; timeNextPopSample = 207; popParams.size() = 2

 We are SAMPLING at time 207



*** Looping through 5.2. Iter = 232 


  iteration 232; minNextMutationTime = 218; timeNextPopSample = 208; popParams.size() = 1

 We are SAMPLING at time 208



*** Looping through 5.2. Iter = 233 


  iteration 233; minNextMutationTime = 219; timeNextPopSample = 209; popParams.size() = 1

 We are SAMPLING at time 209



*** Looping through 5.2. Iter = 234 


  iteration 234; minNextMutationTime = 220; timeNextPopSample = 210; popParams.size() = 1

 We are SAMPLING at time 210



*** Looping through 5.2. Iter = 235 


  iteration 235; minNextMutationTime = 221; timeNextPopSample = 211; popParams.size() = 1

 We are SAMPLING at time 211



*** Looping through 5.2. Iter = 236 


  iteration 236; minNextMutationTime = 222; timeNextPopSample = 212; popParams.size() = 1

 We are SAMPLING at time 212



*** Looping through 5.2. Iter = 237 


  iteration 237; minNextMutationTime = 223; timeNextPopSample = 213; popParams.size() = 1

 We are SAMPLING at time 213



*** Looping through 5.2. Iter = 238 


  iteration 238; minNextMutationTime = 224; timeNextPopSample = 214; popParams.size() = 1

 We are SAMPLING at time 214



*** Looping through 5.2. Iter = 239 


  iteration 239; minNextMutationTime = 214.117; timeNextPopSample = 215; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 240 


  iteration 240; minNextMutationTime = 225; timeNextPopSample = 215; popParams.size() = 2

 We are SAMPLING at time 215



*** Looping through 5.2. Iter = 241 


  iteration 241; minNextMutationTime = 226; timeNextPopSample = 216; popParams.size() = 2

 We are SAMPLING at time 216



*** Looping through 5.2. Iter = 242 


  iteration 242; minNextMutationTime = 227; timeNextPopSample = 217; popParams.size() = 2

 We are SAMPLING at time 217



*** Looping through 5.2. Iter = 243 


  iteration 243; minNextMutationTime = 228; timeNextPopSample = 218; popParams.size() = 2

 We are SAMPLING at time 218



*** Looping through 5.2. Iter = 244 


  iteration 244; minNextMutationTime = 229; timeNextPopSample = 219; popParams.size() = 2

 We are SAMPLING at time 219



*** Looping through 5.2. Iter = 245 


  iteration 245; minNextMutationTime = 230; timeNextPopSample = 220; popParams.size() = 2

 We are SAMPLING at time 220



*** Looping through 5.2. Iter = 246 


  iteration 246; minNextMutationTime = 231; timeNextPopSample = 221; popParams.size() = 2

 We are SAMPLING at time 221



*** Looping through 5.2. Iter = 247 


  iteration 247; minNextMutationTime = 232; timeNextPopSample = 222; popParams.size() = 2

 We are SAMPLING at time 222



*** Looping through 5.2. Iter = 248 


  iteration 248; minNextMutationTime = 233; timeNextPopSample = 223; popParams.size() = 2

 We are SAMPLING at time 223



*** Looping through 5.2. Iter = 249 


  iteration 249; minNextMutationTime = 234; timeNextPopSample = 224; popParams.size() = 2

 We are SAMPLING at time 224



*** Looping through 5.2. Iter = 250 


  iteration 250; minNextMutationTime = 235; timeNextPopSample = 225; popParams.size() = 1

 We are SAMPLING at time 225



*** Looping through 5.2. Iter = 251 


  iteration 251; minNextMutationTime = 236; timeNextPopSample = 226; popParams.size() = 1

 We are SAMPLING at time 226



*** Looping through 5.2. Iter = 252 


  iteration 252; minNextMutationTime = 237; timeNextPopSample = 227; popParams.size() = 1

 We are SAMPLING at time 227



*** Looping through 5.2. Iter = 253 


  iteration 253; minNextMutationTime = 238; timeNextPopSample = 228; popParams.size() = 1

 We are SAMPLING at time 228



*** Looping through 5.2. Iter = 254 


  iteration 254; minNextMutationTime = 239; timeNextPopSample = 229; popParams.size() = 1

 We are SAMPLING at time 229



*** Looping through 5.2. Iter = 255 


  iteration 255; minNextMutationTime = 229.597; timeNextPopSample = 230; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 256 


  iteration 256; minNextMutationTime = 240; timeNextPopSample = 230; popParams.size() = 2

 We are SAMPLING at time 230



*** Looping through 5.2. Iter = 257 


  iteration 257; minNextMutationTime = 241; timeNextPopSample = 231; popParams.size() = 2

 We are SAMPLING at time 231



*** Looping through 5.2. Iter = 258 


  iteration 258; minNextMutationTime = 242; timeNextPopSample = 232; popParams.size() = 1

 We are SAMPLING at time 232



*** Looping through 5.2. Iter = 259 


  iteration 259; minNextMutationTime = 243; timeNextPopSample = 233; popParams.size() = 1

 We are SAMPLING at time 233



*** Looping through 5.2. Iter = 260 


  iteration 260; minNextMutationTime = 244; timeNextPopSample = 234; popParams.size() = 1

 We are SAMPLING at time 234



*** Looping through 5.2. Iter = 261 


  iteration 261; minNextMutationTime = 245; timeNextPopSample = 235; popParams.size() = 1

 We are SAMPLING at time 235



*** Looping through 5.2. Iter = 262 


  iteration 262; minNextMutationTime = 246; timeNextPopSample = 236; popParams.size() = 1

 We are SAMPLING at time 236



*** Looping through 5.2. Iter = 263 


  iteration 263; minNextMutationTime = 247; timeNextPopSample = 237; popParams.size() = 1

 We are SAMPLING at time 237



*** Looping through 5.2. Iter = 264 


  iteration 264; minNextMutationTime = 248; timeNextPopSample = 238; popParams.size() = 1

 We are SAMPLING at time 238



*** Looping through 5.2. Iter = 265 


  iteration 265; minNextMutationTime = 249; timeNextPopSample = 239; popParams.size() = 1

 We are SAMPLING at time 239



*** Looping through 5.2. Iter = 266 


  iteration 266; minNextMutationTime = 250; timeNextPopSample = 240; popParams.size() = 1

 We are SAMPLING at time 240



*** Looping through 5.2. Iter = 267 


  iteration 267; minNextMutationTime = 251; timeNextPopSample = 241; popParams.size() = 1

 We are SAMPLING at time 241



*** Looping through 5.2. Iter = 268 


  iteration 268; minNextMutationTime = 252; timeNextPopSample = 242; popParams.size() = 1

 We are SAMPLING at time 242



*** Looping through 5.2. Iter = 269 


  iteration 269; minNextMutationTime = 253; timeNextPopSample = 243; popParams.size() = 1

 We are SAMPLING at time 243



*** Looping through 5.2. Iter = 270 


  iteration 270; minNextMutationTime = 254; timeNextPopSample = 244; popParams.size() = 1

 We are SAMPLING at time 244



*** Looping through 5.2. Iter = 271 


  iteration 271; minNextMutationTime = 255; timeNextPopSample = 245; popParams.size() = 1

 We are SAMPLING at time 245



*** Looping through 5.2. Iter = 272 


  iteration 272; minNextMutationTime = 256; timeNextPopSample = 246; popParams.size() = 1

 We are SAMPLING at time 246



*** Looping through 5.2. Iter = 273 


  iteration 273; minNextMutationTime = 246.805; timeNextPopSample = 247; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 274 


  iteration 274; minNextMutationTime = 257; timeNextPopSample = 247; popParams.size() = 2

 We are SAMPLING at time 247



*** Looping through 5.2. Iter = 275 


  iteration 275; minNextMutationTime = 258; timeNextPopSample = 248; popParams.size() = 1

 We are SAMPLING at time 248



*** Looping through 5.2. Iter = 276 


  iteration 276; minNextMutationTime = 259; timeNextPopSample = 249; popParams.size() = 1

 We are SAMPLING at time 249



*** Looping through 5.2. Iter = 277 


  iteration 277; minNextMutationTime = 260; timeNextPopSample = 250; popParams.size() = 1

 We are SAMPLING at time 250



*** Looping through 5.2. Iter = 278 


  iteration 278; minNextMutationTime = 261; timeNextPopSample = 251; popParams.size() = 1

 We are SAMPLING at time 251



*** Looping through 5.2. Iter = 279 


  iteration 279; minNextMutationTime = 262; timeNextPopSample = 252; popParams.size() = 1

 We are SAMPLING at time 252



*** Looping through 5.2. Iter = 280 


  iteration 280; minNextMutationTime = 263; timeNextPopSample = 253; popParams.size() = 1

 We are SAMPLING at time 253



*** Looping through 5.2. Iter = 281 


  iteration 281; minNextMutationTime = 253.651; timeNextPopSample = 254; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 282 


  iteration 282; minNextMutationTime = 264; timeNextPopSample = 254; popParams.size() = 2

 We are SAMPLING at time 254



*** Looping through 5.2. Iter = 283 


  iteration 283; minNextMutationTime = 265; timeNextPopSample = 255; popParams.size() = 1

 We are SAMPLING at time 255



*** Looping through 5.2. Iter = 284 


  iteration 284; minNextMutationTime = 266; timeNextPopSample = 256; popParams.size() = 1

 We are SAMPLING at time 256



*** Looping through 5.2. Iter = 285 


  iteration 285; minNextMutationTime = 267; timeNextPopSample = 257; popParams.size() = 1

 We are SAMPLING at time 257



*** Looping through 5.2. Iter = 286 


  iteration 286; minNextMutationTime = 257.043; timeNextPopSample = 258; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 287 


  iteration 287; minNextMutationTime = 268; timeNextPopSample = 258; popParams.size() = 2

 We are SAMPLING at time 258



*** Looping through 5.2. Iter = 288 


  iteration 288; minNextMutationTime = 269; timeNextPopSample = 259; popParams.size() = 2

 We are SAMPLING at time 259



*** Looping through 5.2. Iter = 289 


  iteration 289; minNextMutationTime = 270; timeNextPopSample = 260; popParams.size() = 2

 We are SAMPLING at time 260



*** Looping through 5.2. Iter = 290 


  iteration 290; minNextMutationTime = 271; timeNextPopSample = 261; popParams.size() = 2

 We are SAMPLING at time 261



*** Looping through 5.2. Iter = 291 


  iteration 291; minNextMutationTime = 272; timeNextPopSample = 262; popParams.size() = 2

 We are SAMPLING at time 262



*** Looping through 5.2. Iter = 292 


  iteration 292; minNextMutationTime = 273; timeNextPopSample = 263; popParams.size() = 2

 We are SAMPLING at time 263



*** Looping through 5.2. Iter = 293 


  iteration 293; minNextMutationTime = 274; timeNextPopSample = 264; popParams.size() = 2

 We are SAMPLING at time 264



*** Looping through 5.2. Iter = 294 


  iteration 294; minNextMutationTime = 264.958; timeNextPopSample = 265; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 295 


  iteration 295; minNextMutationTime = 275; timeNextPopSample = 265; popParams.size() = 3

 We are SAMPLING at time 265



*** Looping through 5.2. Iter = 296 


  iteration 296; minNextMutationTime = 276; timeNextPopSample = 266; popParams.size() = 3

 We are SAMPLING at time 266



*** Looping through 5.2. Iter = 297 


  iteration 297; minNextMutationTime = 277; timeNextPopSample = 267; popParams.size() = 2

 We are SAMPLING at time 267



*** Looping through 5.2. Iter = 298 


  iteration 298; minNextMutationTime = 278; timeNextPopSample = 268; popParams.size() = 2

 We are SAMPLING at time 268



*** Looping through 5.2. Iter = 299 


  iteration 299; minNextMutationTime = 279; timeNextPopSample = 269; popParams.size() = 2

 We are SAMPLING at time 269



*** Looping through 5.2. Iter = 300 


  iteration 300; minNextMutationTime = 280; timeNextPopSample = 270; popParams.size() = 2

 We are SAMPLING at time 270



*** Looping through 5.2. Iter = 301 


  iteration 301; minNextMutationTime = 281; timeNextPopSample = 271; popParams.size() = 2

 We are SAMPLING at time 271



*** Looping through 5.2. Iter = 302 


  iteration 302; minNextMutationTime = 282; timeNextPopSample = 272; popParams.size() = 2

 We are SAMPLING at time 272



*** Looping through 5.2. Iter = 303 


  iteration 303; minNextMutationTime = 283; timeNextPopSample = 273; popParams.size() = 2

 We are SAMPLING at time 273



*** Looping through 5.2. Iter = 304 


  iteration 304; minNextMutationTime = 284; timeNextPopSample = 274; popParams.size() = 2

 We are SAMPLING at time 274



*** Looping through 5.2. Iter = 305 


  iteration 305; minNextMutationTime = 285; timeNextPopSample = 275; popParams.size() = 2

 We are SAMPLING at time 275



*** Looping through 5.2. Iter = 306 


  iteration 306; minNextMutationTime = 286; timeNextPopSample = 276; popParams.size() = 2

 We are SAMPLING at time 276



*** Looping through 5.2. Iter = 307 


  iteration 307; minNextMutationTime = 287; timeNextPopSample = 277; popParams.size() = 2

 We are SAMPLING at time 277



*** Looping through 5.2. Iter = 308 


  iteration 308; minNextMutationTime = 288; timeNextPopSample = 278; popParams.size() = 2

 We are SAMPLING at time 278



*** Looping through 5.2. Iter = 309 


  iteration 309; minNextMutationTime = 289; timeNextPopSample = 279; popParams.size() = 2

 We are SAMPLING at time 279



*** Looping through 5.2. Iter = 310 


  iteration 310; minNextMutationTime = 290; timeNextPopSample = 280; popParams.size() = 2

 We are SAMPLING at time 280



*** Looping through 5.2. Iter = 311 


  iteration 311; minNextMutationTime = 291; timeNextPopSample = 281; popParams.size() = 2

 We are SAMPLING at time 281



*** Looping through 5.2. Iter = 312 


  iteration 312; minNextMutationTime = 292; timeNextPopSample = 282; popParams.size() = 2

 We are SAMPLING at time 282



*** Looping through 5.2. Iter = 313 


  iteration 313; minNextMutationTime = 293; timeNextPopSample = 283; popParams.size() = 2

 We are SAMPLING at time 283



*** Looping through 5.2. Iter = 314 


  iteration 314; minNextMutationTime = 294; timeNextPopSample = 284; popParams.size() = 2

 We are SAMPLING at time 284



*** Looping through 5.2. Iter = 315 


  iteration 315; minNextMutationTime = 295; timeNextPopSample = 285; popParams.size() = 2

 We are SAMPLING at time 285



*** Looping through 5.2. Iter = 316 


  iteration 316; minNextMutationTime = 296; timeNextPopSample = 286; popParams.size() = 2

 We are SAMPLING at time 286



*** Looping through 5.2. Iter = 317 


  iteration 317; minNextMutationTime = 297; timeNextPopSample = 287; popParams.size() = 1

 We are SAMPLING at time 287



*** Looping through 5.2. Iter = 318 


  iteration 318; minNextMutationTime = 298; timeNextPopSample = 288; popParams.size() = 1

 We are SAMPLING at time 288



*** Looping through 5.2. Iter = 319 


  iteration 319; minNextMutationTime = 299; timeNextPopSample = 289; popParams.size() = 1

 We are SAMPLING at time 289



*** Looping through 5.2. Iter = 320 


  iteration 320; minNextMutationTime = 289.691; timeNextPopSample = 290; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 321 


  iteration 321; minNextMutationTime = 300; timeNextPopSample = 290; popParams.size() = 2

 We are SAMPLING at time 290



*** Looping through 5.2. Iter = 322 


  iteration 322; minNextMutationTime = 290.2; timeNextPopSample = 291; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 323 


  iteration 323; minNextMutationTime = 301; timeNextPopSample = 291; popParams.size() = 3

 We are SAMPLING at time 291



*** Looping through 5.2. Iter = 324 


  iteration 324; minNextMutationTime = 302; timeNextPopSample = 292; popParams.size() = 2

 We are SAMPLING at time 292



*** Looping through 5.2. Iter = 325 


  iteration 325; minNextMutationTime = 303; timeNextPopSample = 293; popParams.size() = 1

 We are SAMPLING at time 293



*** Looping through 5.2. Iter = 326 


  iteration 326; minNextMutationTime = 304; timeNextPopSample = 294; popParams.size() = 1

 We are SAMPLING at time 294



*** Looping through 5.2. Iter = 327 


  iteration 327; minNextMutationTime = 305; timeNextPopSample = 295; popParams.size() = 1

 We are SAMPLING at time 295



*** Looping through 5.2. Iter = 328 


  iteration 328; minNextMutationTime = 306; timeNextPopSample = 296; popParams.size() = 1

 We are SAMPLING at time 296



*** Looping through 5.2. Iter = 329 


  iteration 329; minNextMutationTime = 307; timeNextPopSample = 297; popParams.size() = 1

 We are SAMPLING at time 297



*** Looping through 5.2. Iter = 330 


  iteration 330; minNextMutationTime = 308; timeNextPopSample = 298; popParams.size() = 1

 We are SAMPLING at time 298



*** Looping through 5.2. Iter = 331 


  iteration 331; minNextMutationTime = 298.63; timeNextPopSample = 299; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 332 


  iteration 332; minNextMutationTime = 309; timeNextPopSample = 299; popParams.size() = 2

 We are SAMPLING at time 299



*** Looping through 5.2. Iter = 333 


  iteration 333; minNextMutationTime = 310; timeNextPopSample = 300; popParams.size() = 2

 We are SAMPLING at time 300



*** Looping through 5.2. Iter = 334 


  iteration 334; minNextMutationTime = 311; timeNextPopSample = 301; popParams.size() = 2

 We are SAMPLING at time 301



*** Looping through 5.2. Iter = 335 


  iteration 335; minNextMutationTime = 312; timeNextPopSample = 302; popParams.size() = 2

 We are SAMPLING at time 302



*** Looping through 5.2. Iter = 336 


  iteration 336; minNextMutationTime = 313; timeNextPopSample = 303; popParams.size() = 1

 We are SAMPLING at time 303



*** Looping through 5.2. Iter = 337 


  iteration 337; minNextMutationTime = 314; timeNextPopSample = 304; popParams.size() = 1

 We are SAMPLING at time 304



*** Looping through 5.2. Iter = 338 


  iteration 338; minNextMutationTime = 304.339; timeNextPopSample = 305; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 339 


  iteration 339; minNextMutationTime = 315; timeNextPopSample = 305; popParams.size() = 2

 We are SAMPLING at time 305



*** Looping through 5.2. Iter = 340 


  iteration 340; minNextMutationTime = 305.871; timeNextPopSample = 306; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 341 


  iteration 341; minNextMutationTime = 316; timeNextPopSample = 306; popParams.size() = 2

 We are SAMPLING at time 306



*** Looping through 5.2. Iter = 342 


  iteration 342; minNextMutationTime = 306.671; timeNextPopSample = 307; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 343 


  iteration 343; minNextMutationTime = 317; timeNextPopSample = 307; popParams.size() = 3

 We are SAMPLING at time 307



*** Looping through 5.2. Iter = 344 


  iteration 344; minNextMutationTime = 307.134; timeNextPopSample = 308; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 345 


  iteration 345; minNextMutationTime = 307.761; timeNextPopSample = 308; popParams.size() = 3

     Creating new species   3         from species 0


*** Looping through 5.2. Iter = 346 


  iteration 346; minNextMutationTime = 318; timeNextPopSample = 308; popParams.size() = 4

 We are SAMPLING at time 308



*** Looping through 5.2. Iter = 347 


  iteration 347; minNextMutationTime = 319; timeNextPopSample = 309; popParams.size() = 3

 We are SAMPLING at time 309



*** Looping through 5.2. Iter = 348 


  iteration 348; minNextMutationTime = 320; timeNextPopSample = 310; popParams.size() = 3

 We are SAMPLING at time 310



*** Looping through 5.2. Iter = 349 


  iteration 349; minNextMutationTime = 321; timeNextPopSample = 311; popParams.size() = 2

 We are SAMPLING at time 311



*** Looping through 5.2. Iter = 350 


  iteration 350; minNextMutationTime = 322; timeNextPopSample = 312; popParams.size() = 2

 We are SAMPLING at time 312



*** Looping through 5.2. Iter = 351 


  iteration 351; minNextMutationTime = 323; timeNextPopSample = 313; popParams.size() = 2

 We are SAMPLING at time 313



*** Looping through 5.2. Iter = 352 


  iteration 352; minNextMutationTime = 324; timeNextPopSample = 314; popParams.size() = 1

 We are SAMPLING at time 314



*** Looping through 5.2. Iter = 353 


  iteration 353; minNextMutationTime = 314.403; timeNextPopSample = 315; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 354 


  iteration 354; minNextMutationTime = 325; timeNextPopSample = 315; popParams.size() = 2

 We are SAMPLING at time 315



*** Looping through 5.2. Iter = 355 


  iteration 355; minNextMutationTime = 326; timeNextPopSample = 316; popParams.size() = 2

 We are SAMPLING at time 316



*** Looping through 5.2. Iter = 356 


  iteration 356; minNextMutationTime = 327; timeNextPopSample = 317; popParams.size() = 2

 We are SAMPLING at time 317



*** Looping through 5.2. Iter = 357 


  iteration 357; minNextMutationTime = 328; timeNextPopSample = 318; popParams.size() = 1

 We are SAMPLING at time 318



*** Looping through 5.2. Iter = 358 


  iteration 358; minNextMutationTime = 329; timeNextPopSample = 319; popParams.size() = 1

 We are SAMPLING at time 319



*** Looping through 5.2. Iter = 359 


  iteration 359; minNextMutationTime = 319.208; timeNextPopSample = 320; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 360 


  iteration 360; minNextMutationTime = 330; timeNextPopSample = 320; popParams.size() = 2

 We are SAMPLING at time 320



*** Looping through 5.2. Iter = 361 


  iteration 361; minNextMutationTime = 331; timeNextPopSample = 321; popParams.size() = 2

 We are SAMPLING at time 321



*** Looping through 5.2. Iter = 362 


  iteration 362; minNextMutationTime = 332; timeNextPopSample = 322; popParams.size() = 2

 We are SAMPLING at time 322



*** Looping through 5.2. Iter = 363 


  iteration 363; minNextMutationTime = 333; timeNextPopSample = 323; popParams.size() = 2

 We are SAMPLING at time 323



*** Looping through 5.2. Iter = 364 


  iteration 364; minNextMutationTime = 334; timeNextPopSample = 324; popParams.size() = 2

 We are SAMPLING at time 324



*** Looping through 5.2. Iter = 365 


  iteration 365; minNextMutationTime = 335; timeNextPopSample = 325; popParams.size() = 2

 We are SAMPLING at time 325



*** Looping through 5.2. Iter = 366 


  iteration 366; minNextMutationTime = 336; timeNextPopSample = 326; popParams.size() = 2

 We are SAMPLING at time 326



*** Looping through 5.2. Iter = 367 


  iteration 367; minNextMutationTime = 337; timeNextPopSample = 327; popParams.size() = 2

 We are SAMPLING at time 327



*** Looping through 5.2. Iter = 368 


  iteration 368; minNextMutationTime = 338; timeNextPopSample = 328; popParams.size() = 2

 We are SAMPLING at time 328



*** Looping through 5.2. Iter = 369 


  iteration 369; minNextMutationTime = 339; timeNextPopSample = 329; popParams.size() = 2

 We are SAMPLING at time 329



*** Looping through 5.2. Iter = 370 


  iteration 370; minNextMutationTime = 340; timeNextPopSample = 330; popParams.size() = 2

 We are SAMPLING at time 330



*** Looping through 5.2. Iter = 371 


  iteration 371; minNextMutationTime = 341; timeNextPopSample = 331; popParams.size() = 1

 We are SAMPLING at time 331



*** Looping through 5.2. Iter = 372 


  iteration 372; minNextMutationTime = 342; timeNextPopSample = 332; popParams.size() = 1

 We are SAMPLING at time 332



*** Looping through 5.2. Iter = 373 


  iteration 373; minNextMutationTime = 343; timeNextPopSample = 333; popParams.size() = 1

 We are SAMPLING at time 333



*** Looping through 5.2. Iter = 374 


  iteration 374; minNextMutationTime = 344; timeNextPopSample = 334; popParams.size() = 1

 We are SAMPLING at time 334



*** Looping through 5.2. Iter = 375 


  iteration 375; minNextMutationTime = 345; timeNextPopSample = 335; popParams.size() = 1

 We are SAMPLING at time 335



*** Looping through 5.2. Iter = 376 


  iteration 376; minNextMutationTime = 335.414; timeNextPopSample = 336; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 377 


  iteration 377; minNextMutationTime = 346; timeNextPopSample = 336; popParams.size() = 2

 We are SAMPLING at time 336



*** Looping through 5.2. Iter = 378 


  iteration 378; minNextMutationTime = 347; timeNextPopSample = 337; popParams.size() = 1

 We are SAMPLING at time 337



*** Looping through 5.2. Iter = 379 


  iteration 379; minNextMutationTime = 348; timeNextPopSample = 338; popParams.size() = 1

 We are SAMPLING at time 338



*** Looping through 5.2. Iter = 380 


  iteration 380; minNextMutationTime = 349; timeNextPopSample = 339; popParams.size() = 1

 We are SAMPLING at time 339



*** Looping through 5.2. Iter = 381 


  iteration 381; minNextMutationTime = 350; timeNextPopSample = 340; popParams.size() = 1

 We are SAMPLING at time 340



*** Looping through 5.2. Iter = 382 


  iteration 382; minNextMutationTime = 351; timeNextPopSample = 341; popParams.size() = 1

 We are SAMPLING at time 341



*** Looping through 5.2. Iter = 383 


  iteration 383; minNextMutationTime = 352; timeNextPopSample = 342; popParams.size() = 1

 We are SAMPLING at time 342



*** Looping through 5.2. Iter = 384 


  iteration 384; minNextMutationTime = 353; timeNextPopSample = 343; popParams.size() = 1

 We are SAMPLING at time 343



*** Looping through 5.2. Iter = 385 


  iteration 385; minNextMutationTime = 354; timeNextPopSample = 344; popParams.size() = 1

 We are SAMPLING at time 344



*** Looping through 5.2. Iter = 386 


  iteration 386; minNextMutationTime = 355; timeNextPopSample = 345; popParams.size() = 1

 We are SAMPLING at time 345



*** Looping through 5.2. Iter = 387 


  iteration 387; minNextMutationTime = 356; timeNextPopSample = 346; popParams.size() = 1

 We are SAMPLING at time 346



*** Looping through 5.2. Iter = 388 


  iteration 388; minNextMutationTime = 357; timeNextPopSample = 347; popParams.size() = 1

 We are SAMPLING at time 347



*** Looping through 5.2. Iter = 389 


  iteration 389; minNextMutationTime = 358; timeNextPopSample = 348; popParams.size() = 1

 We are SAMPLING at time 348



*** Looping through 5.2. Iter = 390 


  iteration 390; minNextMutationTime = 359; timeNextPopSample = 349; popParams.size() = 1

 We are SAMPLING at time 349



*** Looping through 5.2. Iter = 391 


  iteration 391; minNextMutationTime = 360; timeNextPopSample = 350; popParams.size() = 1

 We are SAMPLING at time 350



*** Looping through 5.2. Iter = 392 


  iteration 392; minNextMutationTime = 361; timeNextPopSample = 351; popParams.size() = 1

 We are SAMPLING at time 351



*** Looping through 5.2. Iter = 393 


  iteration 393; minNextMutationTime = 362; timeNextPopSample = 352; popParams.size() = 1

 We are SAMPLING at time 352



*** Looping through 5.2. Iter = 394 


  iteration 394; minNextMutationTime = 363; timeNextPopSample = 353; popParams.size() = 1

 We are SAMPLING at time 353



*** Looping through 5.2. Iter = 395 


  iteration 395; minNextMutationTime = 364; timeNextPopSample = 354; popParams.size() = 1

 We are SAMPLING at time 354



*** Looping through 5.2. Iter = 396 


  iteration 396; minNextMutationTime = 365; timeNextPopSample = 355; popParams.size() = 1

 We are SAMPLING at time 355



*** Looping through 5.2. Iter = 397 


  iteration 397; minNextMutationTime = 366; timeNextPopSample = 356; popParams.size() = 1

 We are SAMPLING at time 356



*** Looping through 5.2. Iter = 398 


  iteration 398; minNextMutationTime = 367; timeNextPopSample = 357; popParams.size() = 1

 We are SAMPLING at time 357



*** Looping through 5.2. Iter = 399 


  iteration 399; minNextMutationTime = 368; timeNextPopSample = 358; popParams.size() = 1

 We are SAMPLING at time 358



*** Looping through 5.2. Iter = 400 


  iteration 400; minNextMutationTime = 369; timeNextPopSample = 359; popParams.size() = 1

 We are SAMPLING at time 359



*** Looping through 5.2. Iter = 401 


  iteration 401; minNextMutationTime = 370; timeNextPopSample = 360; popParams.size() = 1

 We are SAMPLING at time 360



*** Looping through 5.2. Iter = 402 


  iteration 402; minNextMutationTime = 371; timeNextPopSample = 361; popParams.size() = 1

 We are SAMPLING at time 361



*** Looping through 5.2. Iter = 403 


  iteration 403; minNextMutationTime = 372; timeNextPopSample = 362; popParams.size() = 1

 We are SAMPLING at time 362



*** Looping through 5.2. Iter = 404 


  iteration 404; minNextMutationTime = 373; timeNextPopSample = 363; popParams.size() = 1

 We are SAMPLING at time 363



*** Looping through 5.2. Iter = 405 


  iteration 405; minNextMutationTime = 374; timeNextPopSample = 364; popParams.size() = 1

 We are SAMPLING at time 364



*** Looping through 5.2. Iter = 406 


  iteration 406; minNextMutationTime = 364.118; timeNextPopSample = 365; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 407 


  iteration 407; minNextMutationTime = 375; timeNextPopSample = 365; popParams.size() = 2

 We are SAMPLING at time 365



*** Looping through 5.2. Iter = 408 


  iteration 408; minNextMutationTime = 376; timeNextPopSample = 366; popParams.size() = 2

 We are SAMPLING at time 366



*** Looping through 5.2. Iter = 409 


  iteration 409; minNextMutationTime = 377; timeNextPopSample = 367; popParams.size() = 1

 We are SAMPLING at time 367



*** Looping through 5.2. Iter = 410 


  iteration 410; minNextMutationTime = 378; timeNextPopSample = 368; popParams.size() = 1

 We are SAMPLING at time 368



*** Looping through 5.2. Iter = 411 


  iteration 411; minNextMutationTime = 379; timeNextPopSample = 369; popParams.size() = 1

 We are SAMPLING at time 369



*** Looping through 5.2. Iter = 412 


  iteration 412; minNextMutationTime = 380; timeNextPopSample = 370; popParams.size() = 1

 We are SAMPLING at time 370



*** Looping through 5.2. Iter = 413 


  iteration 413; minNextMutationTime = 381; timeNextPopSample = 371; popParams.size() = 1

 We are SAMPLING at time 371



*** Looping through 5.2. Iter = 414 


  iteration 414; minNextMutationTime = 382; timeNextPopSample = 372; popParams.size() = 1

 We are SAMPLING at time 372



*** Looping through 5.2. Iter = 415 


  iteration 415; minNextMutationTime = 383; timeNextPopSample = 373; popParams.size() = 1

 We are SAMPLING at time 373



*** Looping through 5.2. Iter = 416 


  iteration 416; minNextMutationTime = 384; timeNextPopSample = 374; popParams.size() = 1

 We are SAMPLING at time 374



*** Looping through 5.2. Iter = 417 


  iteration 417; minNextMutationTime = 385; timeNextPopSample = 375; popParams.size() = 1

 We are SAMPLING at time 375



*** Looping through 5.2. Iter = 418 


  iteration 418; minNextMutationTime = 375.289; timeNextPopSample = 376; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 419 


  iteration 419; minNextMutationTime = 386; timeNextPopSample = 376; popParams.size() = 2

 We are SAMPLING at time 376



*** Looping through 5.2. Iter = 420 


  iteration 420; minNextMutationTime = 387; timeNextPopSample = 377; popParams.size() = 2

 We are SAMPLING at time 377



*** Looping through 5.2. Iter = 421 


  iteration 421; minNextMutationTime = 388; timeNextPopSample = 378; popParams.size() = 2

 We are SAMPLING at time 378



*** Looping through 5.2. Iter = 422 


  iteration 422; minNextMutationTime = 389; timeNextPopSample = 379; popParams.size() = 1

 We are SAMPLING at time 379



*** Looping through 5.2. Iter = 423 


  iteration 423; minNextMutationTime = 390; timeNextPopSample = 380; popParams.size() = 1

 We are SAMPLING at time 380



*** Looping through 5.2. Iter = 424 


  iteration 424; minNextMutationTime = 391; timeNextPopSample = 381; popParams.size() = 1

 We are SAMPLING at time 381



*** Looping through 5.2. Iter = 425 


  iteration 425; minNextMutationTime = 392; timeNextPopSample = 382; popParams.size() = 1

 We are SAMPLING at time 382



*** Looping through 5.2. Iter = 426 


  iteration 426; minNextMutationTime = 393; timeNextPopSample = 383; popParams.size() = 1

 We are SAMPLING at time 383



*** Looping through 5.2. Iter = 427 


  iteration 427; minNextMutationTime = 394; timeNextPopSample = 384; popParams.size() = 1

 We are SAMPLING at time 384



*** Looping through 5.2. Iter = 428 


  iteration 428; minNextMutationTime = 395; timeNextPopSample = 385; popParams.size() = 1

 We are SAMPLING at time 385



*** Looping through 5.2. Iter = 429 


  iteration 429; minNextMutationTime = 396; timeNextPopSample = 386; popParams.size() = 1

 We are SAMPLING at time 386



*** Looping through 5.2. Iter = 430 


  iteration 430; minNextMutationTime = 397; timeNextPopSample = 387; popParams.size() = 1

 We are SAMPLING at time 387



*** Looping through 5.2. Iter = 431 


  iteration 431; minNextMutationTime = 398; timeNextPopSample = 388; popParams.size() = 1

 We are SAMPLING at time 388



*** Looping through 5.2. Iter = 432 


  iteration 432; minNextMutationTime = 399; timeNextPopSample = 389; popParams.size() = 1

 We are SAMPLING at time 389



*** Looping through 5.2. Iter = 433 


  iteration 433; minNextMutationTime = 389.199; timeNextPopSample = 390; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 434 


  iteration 434; minNextMutationTime = 400; timeNextPopSample = 390; popParams.size() = 2

 We are SAMPLING at time 390



*** Looping through 5.2. Iter = 435 


  iteration 435; minNextMutationTime = 401; timeNextPopSample = 391; popParams.size() = 2

 We are SAMPLING at time 391



*** Looping through 5.2. Iter = 436 


  iteration 436; minNextMutationTime = 402; timeNextPopSample = 392; popParams.size() = 1

 We are SAMPLING at time 392



*** Looping through 5.2. Iter = 437 


  iteration 437; minNextMutationTime = 403; timeNextPopSample = 393; popParams.size() = 1

 We are SAMPLING at time 393



*** Looping through 5.2. Iter = 438 


  iteration 438; minNextMutationTime = 404; timeNextPopSample = 394; popParams.size() = 1

 We are SAMPLING at time 394



*** Looping through 5.2. Iter = 439 


  iteration 439; minNextMutationTime = 405; timeNextPopSample = 395; popParams.size() = 1

 We are SAMPLING at time 395



*** Looping through 5.2. Iter = 440 


  iteration 440; minNextMutationTime = 406; timeNextPopSample = 396; popParams.size() = 1

 We are SAMPLING at time 396



*** Looping through 5.2. Iter = 441 


  iteration 441; minNextMutationTime = 407; timeNextPopSample = 397; popParams.size() = 1

 We are SAMPLING at time 397



*** Looping through 5.2. Iter = 442 


  iteration 442; minNextMutationTime = 397.439; timeNextPopSample = 398; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 443 


  iteration 443; minNextMutationTime = 408; timeNextPopSample = 398; popParams.size() = 2

 We are SAMPLING at time 398



*** Looping through 5.2. Iter = 444 


  iteration 444; minNextMutationTime = 409; timeNextPopSample = 399; popParams.size() = 1

 We are SAMPLING at time 399



*** Looping through 5.2. Iter = 445 


  iteration 445; minNextMutationTime = 410; timeNextPopSample = 400; popParams.size() = 1

 We are SAMPLING at time 400



*** Looping through 5.2. Iter = 446 


  iteration 446; minNextMutationTime = 411; timeNextPopSample = 401; popParams.size() = 1

 We are SAMPLING at time 401



*** Looping through 5.2. Iter = 447 


  iteration 447; minNextMutationTime = 412; timeNextPopSample = 402; popParams.size() = 1

 We are SAMPLING at time 402



*** Looping through 5.2. Iter = 448 


  iteration 448; minNextMutationTime = 413; timeNextPopSample = 403; popParams.size() = 1

 We are SAMPLING at time 403



*** Looping through 5.2. Iter = 449 


  iteration 449; minNextMutationTime = 414; timeNextPopSample = 404; popParams.size() = 1

 We are SAMPLING at time 404



*** Looping through 5.2. Iter = 450 


  iteration 450; minNextMutationTime = 415; timeNextPopSample = 405; popParams.size() = 1

 We are SAMPLING at time 405



*** Looping through 5.2. Iter = 451 


  iteration 451; minNextMutationTime = 416; timeNextPopSample = 406; popParams.size() = 1

 We are SAMPLING at time 406



*** Looping through 5.2. Iter = 452 


  iteration 452; minNextMutationTime = 417; timeNextPopSample = 407; popParams.size() = 1

 We are SAMPLING at time 407



*** Looping through 5.2. Iter = 453 


  iteration 453; minNextMutationTime = 418; timeNextPopSample = 408; popParams.size() = 1

 We are SAMPLING at time 408



*** Looping through 5.2. Iter = 454 


  iteration 454; minNextMutationTime = 419; timeNextPopSample = 409; popParams.size() = 1

 We are SAMPLING at time 409



*** Looping through 5.2. Iter = 455 


  iteration 455; minNextMutationTime = 420; timeNextPopSample = 410; popParams.size() = 1

 We are SAMPLING at time 410



*** Looping through 5.2. Iter = 456 


  iteration 456; minNextMutationTime = 421; timeNextPopSample = 411; popParams.size() = 1

 We are SAMPLING at time 411



*** Looping through 5.2. Iter = 457 


  iteration 457; minNextMutationTime = 422; timeNextPopSample = 412; popParams.size() = 1

 We are SAMPLING at time 412



*** Looping through 5.2. Iter = 458 


  iteration 458; minNextMutationTime = 423; timeNextPopSample = 413; popParams.size() = 1

 We are SAMPLING at time 413



*** Looping through 5.2. Iter = 459 


  iteration 459; minNextMutationTime = 424; timeNextPopSample = 414; popParams.size() = 1

 We are SAMPLING at time 414



*** Looping through 5.2. Iter = 460 


  iteration 460; minNextMutationTime = 414.539; timeNextPopSample = 415; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 461 


  iteration 461; minNextMutationTime = 425; timeNextPopSample = 415; popParams.size() = 2

 We are SAMPLING at time 415



*** Looping through 5.2. Iter = 462 


  iteration 462; minNextMutationTime = 426; timeNextPopSample = 416; popParams.size() = 2

 We are SAMPLING at time 416



*** Looping through 5.2. Iter = 463 


  iteration 463; minNextMutationTime = 427; timeNextPopSample = 417; popParams.size() = 1

 We are SAMPLING at time 417



*** Looping through 5.2. Iter = 464 


  iteration 464; minNextMutationTime = 428; timeNextPopSample = 418; popParams.size() = 1

 We are SAMPLING at time 418



*** Looping through 5.2. Iter = 465 


  iteration 465; minNextMutationTime = 429; timeNextPopSample = 419; popParams.size() = 1

 We are SAMPLING at time 419



*** Looping through 5.2. Iter = 466 


  iteration 466; minNextMutationTime = 430; timeNextPopSample = 420; popParams.size() = 1

 We are SAMPLING at time 420



*** Looping through 5.2. Iter = 467 


  iteration 467; minNextMutationTime = 431; timeNextPopSample = 421; popParams.size() = 1

 We are SAMPLING at time 421



*** Looping through 5.2. Iter = 468 


  iteration 468; minNextMutationTime = 432; timeNextPopSample = 422; popParams.size() = 1

 We are SAMPLING at time 422



*** Looping through 5.2. Iter = 469 


  iteration 469; minNextMutationTime = 433; timeNextPopSample = 423; popParams.size() = 1

 We are SAMPLING at time 423



*** Looping through 5.2. Iter = 470 


  iteration 470; minNextMutationTime = 434; timeNextPopSample = 424; popParams.size() = 1

 We are SAMPLING at time 424



*** Looping through 5.2. Iter = 471 


  iteration 471; minNextMutationTime = 435; timeNextPopSample = 425; popParams.size() = 1

 We are SAMPLING at time 425



*** Looping through 5.2. Iter = 472 


  iteration 472; minNextMutationTime = 436; timeNextPopSample = 426; popParams.size() = 1

 We are SAMPLING at time 426



*** Looping through 5.2. Iter = 473 


  iteration 473; minNextMutationTime = 437; timeNextPopSample = 427; popParams.size() = 1

 We are SAMPLING at time 427



*** Looping through 5.2. Iter = 474 


  iteration 474; minNextMutationTime = 438; timeNextPopSample = 428; popParams.size() = 1

 We are SAMPLING at time 428



*** Looping through 5.2. Iter = 475 


  iteration 475; minNextMutationTime = 439; timeNextPopSample = 429; popParams.size() = 1

 We are SAMPLING at time 429



*** Looping through 5.2. Iter = 476 


  iteration 476; minNextMutationTime = 440; timeNextPopSample = 430; popParams.size() = 1

 We are SAMPLING at time 430



*** Looping through 5.2. Iter = 477 


  iteration 477; minNextMutationTime = 441; timeNextPopSample = 431; popParams.size() = 1

 We are SAMPLING at time 431



*** Looping through 5.2. Iter = 478 


  iteration 478; minNextMutationTime = 442; timeNextPopSample = 432; popParams.size() = 1

 We are SAMPLING at time 432



*** Looping through 5.2. Iter = 479 


  iteration 479; minNextMutationTime = 443; timeNextPopSample = 433; popParams.size() = 1

 We are SAMPLING at time 433



*** Looping through 5.2. Iter = 480 


  iteration 480; minNextMutationTime = 444; timeNextPopSample = 434; popParams.size() = 1

 We are SAMPLING at time 434



*** Looping through 5.2. Iter = 481 


  iteration 481; minNextMutationTime = 445; timeNextPopSample = 435; popParams.size() = 1

 We are SAMPLING at time 435



*** Looping through 5.2. Iter = 482 


  iteration 482; minNextMutationTime = 446; timeNextPopSample = 436; popParams.size() = 1

 We are SAMPLING at time 436



*** Looping through 5.2. Iter = 483 


  iteration 483; minNextMutationTime = 447; timeNextPopSample = 437; popParams.size() = 1

 We are SAMPLING at time 437



*** Looping through 5.2. Iter = 484 


  iteration 484; minNextMutationTime = 448; timeNextPopSample = 438; popParams.size() = 1

 We are SAMPLING at time 438



*** Looping through 5.2. Iter = 485 


  iteration 485; minNextMutationTime = 449; timeNextPopSample = 439; popParams.size() = 1

 We are SAMPLING at time 439



*** Looping through 5.2. Iter = 486 


  iteration 486; minNextMutationTime = 450; timeNextPopSample = 440; popParams.size() = 1

 We are SAMPLING at time 440



*** Looping through 5.2. Iter = 487 


  iteration 487; minNextMutationTime = 451; timeNextPopSample = 441; popParams.size() = 1

 We are SAMPLING at time 441



*** Looping through 5.2. Iter = 488 


  iteration 488; minNextMutationTime = 452; timeNextPopSample = 442; popParams.size() = 1

 We are SAMPLING at time 442



*** Looping through 5.2. Iter = 489 


  iteration 489; minNextMutationTime = 453; timeNextPopSample = 443; popParams.size() = 1

 We are SAMPLING at time 443



*** Looping through 5.2. Iter = 490 


  iteration 490; minNextMutationTime = 454; timeNextPopSample = 444; popParams.size() = 1

 We are SAMPLING at time 444



*** Looping through 5.2. Iter = 491 


  iteration 491; minNextMutationTime = 455; timeNextPopSample = 445; popParams.size() = 1

 We are SAMPLING at time 445



*** Looping through 5.2. Iter = 492 


  iteration 492; minNextMutationTime = 456; timeNextPopSample = 446; popParams.size() = 1

 We are SAMPLING at time 446



*** Looping through 5.2. Iter = 493 


  iteration 493; minNextMutationTime = 457; timeNextPopSample = 447; popParams.size() = 1

 We are SAMPLING at time 447



*** Looping through 5.2. Iter = 494 


  iteration 494; minNextMutationTime = 458; timeNextPopSample = 448; popParams.size() = 1

 We are SAMPLING at time 448



*** Looping through 5.2. Iter = 495 


  iteration 495; minNextMutationTime = 459; timeNextPopSample = 449; popParams.size() = 1

 We are SAMPLING at time 449



*** Looping through 5.2. Iter = 496 


  iteration 496; minNextMutationTime = 460; timeNextPopSample = 450; popParams.size() = 1

 We are SAMPLING at time 450



*** Looping through 5.2. Iter = 497 


  iteration 497; minNextMutationTime = 461; timeNextPopSample = 451; popParams.size() = 1

 We are SAMPLING at time 451



*** Looping through 5.2. Iter = 498 


  iteration 498; minNextMutationTime = 462; timeNextPopSample = 452; popParams.size() = 1

 We are SAMPLING at time 452



*** Looping through 5.2. Iter = 499 


  iteration 499; minNextMutationTime = 463; timeNextPopSample = 453; popParams.size() = 1

 We are SAMPLING at time 453



*** Looping through 5.2. Iter = 500 


  iteration 500; minNextMutationTime = 464; timeNextPopSample = 454; popParams.size() = 1

 We are SAMPLING at time 454



*** Looping through 5.2. Iter = 501 


  iteration 501; minNextMutationTime = 465; timeNextPopSample = 455; popParams.size() = 1

 We are SAMPLING at time 455



*** Looping through 5.2. Iter = 502 


  iteration 502; minNextMutationTime = 466; timeNextPopSample = 456; popParams.size() = 1

 We are SAMPLING at time 456



*** Looping through 5.2. Iter = 503 


  iteration 503; minNextMutationTime = 467; timeNextPopSample = 457; popParams.size() = 1

 We are SAMPLING at time 457



*** Looping through 5.2. Iter = 504 


  iteration 504; minNextMutationTime = 468; timeNextPopSample = 458; popParams.size() = 1

 We are SAMPLING at time 458



*** Looping through 5.2. Iter = 505 


  iteration 505; minNextMutationTime = 469; timeNextPopSample = 459; popParams.size() = 1

 We are SAMPLING at time 459



*** Looping through 5.2. Iter = 506 


  iteration 506; minNextMutationTime = 470; timeNextPopSample = 460; popParams.size() = 1

 We are SAMPLING at time 460



*** Looping through 5.2. Iter = 507 


  iteration 507; minNextMutationTime = 471; timeNextPopSample = 461; popParams.size() = 1

 We are SAMPLING at time 461



*** Looping through 5.2. Iter = 508 


  iteration 508; minNextMutationTime = 472; timeNextPopSample = 462; popParams.size() = 1

 We are SAMPLING at time 462



*** Looping through 5.2. Iter = 509 


  iteration 509; minNextMutationTime = 473; timeNextPopSample = 463; popParams.size() = 1

 We are SAMPLING at time 463



*** Looping through 5.2. Iter = 510 


  iteration 510; minNextMutationTime = 474; timeNextPopSample = 464; popParams.size() = 1

 We are SAMPLING at time 464



*** Looping through 5.2. Iter = 511 


  iteration 511; minNextMutationTime = 475; timeNextPopSample = 465; popParams.size() = 1

 We are SAMPLING at time 465



*** Looping through 5.2. Iter = 512 


  iteration 512; minNextMutationTime = 476; timeNextPopSample = 466; popParams.size() = 1

 We are SAMPLING at time 466



*** Looping through 5.2. Iter = 513 


  iteration 513; minNextMutationTime = 477; timeNextPopSample = 467; popParams.size() = 1

 We are SAMPLING at time 467



*** Looping through 5.2. Iter = 514 


  iteration 514; minNextMutationTime = 478; timeNextPopSample = 468; popParams.size() = 1

 We are SAMPLING at time 468



*** Looping through 5.2. Iter = 515 


  iteration 515; minNextMutationTime = 479; timeNextPopSample = 469; popParams.size() = 1

 We are SAMPLING at time 469



*** Looping through 5.2. Iter = 516 


  iteration 516; minNextMutationTime = 480; timeNextPopSample = 470; popParams.size() = 1

 We are SAMPLING at time 470



*** Looping through 5.2. Iter = 517 


  iteration 517; minNextMutationTime = 481; timeNextPopSample = 471; popParams.size() = 1

 We are SAMPLING at time 471



*** Looping through 5.2. Iter = 518 


  iteration 518; minNextMutationTime = 482; timeNextPopSample = 472; popParams.size() = 1

 We are SAMPLING at time 472



*** Looping through 5.2. Iter = 519 


  iteration 519; minNextMutationTime = 483; timeNextPopSample = 473; popParams.size() = 1

 We are SAMPLING at time 473



*** Looping through 5.2. Iter = 520 


  iteration 520; minNextMutationTime = 484; timeNextPopSample = 474; popParams.size() = 1

 We are SAMPLING at time 474



*** Looping through 5.2. Iter = 521 


  iteration 521; minNextMutationTime = 474.208; timeNextPopSample = 475; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 522 


  iteration 522; minNextMutationTime = 485; timeNextPopSample = 475; popParams.size() = 2

 We are SAMPLING at time 475



*** Looping through 5.2. Iter = 523 


  iteration 523; minNextMutationTime = 486; timeNextPopSample = 476; popParams.size() = 1

 We are SAMPLING at time 476



*** Looping through 5.2. Iter = 524 


  iteration 524; minNextMutationTime = 487; timeNextPopSample = 477; popParams.size() = 1

 We are SAMPLING at time 477



*** Looping through 5.2. Iter = 525 


  iteration 525; minNextMutationTime = 488; timeNextPopSample = 478; popParams.size() = 1

 We are SAMPLING at time 478



*** Looping through 5.2. Iter = 526 


  iteration 526; minNextMutationTime = 489; timeNextPopSample = 479; popParams.size() = 1

 We are SAMPLING at time 479



*** Looping through 5.2. Iter = 527 


  iteration 527; minNextMutationTime = 490; timeNextPopSample = 480; popParams.size() = 1

 We are SAMPLING at time 480



*** Looping through 5.2. Iter = 528 


  iteration 528; minNextMutationTime = 491; timeNextPopSample = 481; popParams.size() = 1

 We are SAMPLING at time 481



*** Looping through 5.2. Iter = 529 


  iteration 529; minNextMutationTime = 492; timeNextPopSample = 482; popParams.size() = 1

 We are SAMPLING at time 482



*** Looping through 5.2. Iter = 530 


  iteration 530; minNextMutationTime = 493; timeNextPopSample = 483; popParams.size() = 1

 We are SAMPLING at time 483



*** Looping through 5.2. Iter = 531 


  iteration 531; minNextMutationTime = 494; timeNextPopSample = 484; popParams.size() = 1

 We are SAMPLING at time 484



*** Looping through 5.2. Iter = 532 


  iteration 532; minNextMutationTime = 495; timeNextPopSample = 485; popParams.size() = 1

 We are SAMPLING at time 485



*** Looping through 5.2. Iter = 533 


  iteration 533; minNextMutationTime = 496; timeNextPopSample = 486; popParams.size() = 1

 We are SAMPLING at time 486



*** Looping through 5.2. Iter = 534 


  iteration 534; minNextMutationTime = 497; timeNextPopSample = 487; popParams.size() = 1

 We are SAMPLING at time 487



*** Looping through 5.2. Iter = 535 


  iteration 535; minNextMutationTime = 498; timeNextPopSample = 488; popParams.size() = 1

 We are SAMPLING at time 488



*** Looping through 5.2. Iter = 536 


  iteration 536; minNextMutationTime = 499; timeNextPopSample = 489; popParams.size() = 1

 We are SAMPLING at time 489



*** Looping through 5.2. Iter = 537 


  iteration 537; minNextMutationTime = 500; timeNextPopSample = 490; popParams.size() = 1

 We are SAMPLING at time 490



*** Looping through 5.2. Iter = 538 


  iteration 538; minNextMutationTime = 501; timeNextPopSample = 491; popParams.size() = 1

 We are SAMPLING at time 491



*** Looping through 5.2. Iter = 539 


  iteration 539; minNextMutationTime = 502; timeNextPopSample = 492; popParams.size() = 1

 We are SAMPLING at time 492



*** Looping through 5.2. Iter = 540 


  iteration 540; minNextMutationTime = 503; timeNextPopSample = 493; popParams.size() = 1

 We are SAMPLING at time 493



*** Looping through 5.2. Iter = 541 


  iteration 541; minNextMutationTime = 504; timeNextPopSample = 494; popParams.size() = 1

 We are SAMPLING at time 494



*** Looping through 5.2. Iter = 542 


  iteration 542; minNextMutationTime = 505; timeNextPopSample = 495; popParams.size() = 1

 We are SAMPLING at time 495



*** Looping through 5.2. Iter = 543 


  iteration 543; minNextMutationTime = 506; timeNextPopSample = 496; popParams.size() = 1

 We are SAMPLING at time 496



*** Looping through 5.2. Iter = 544 


  iteration 544; minNextMutationTime = 507; timeNextPopSample = 497; popParams.size() = 1

 We are SAMPLING at time 497



*** Looping through 5.2. Iter = 545 


  iteration 545; minNextMutationTime = 508; timeNextPopSample = 498; popParams.size() = 1

 We are SAMPLING at time 498



*** Looping through 5.2. Iter = 546 


  iteration 546; minNextMutationTime = 509; timeNextPopSample = 499; popParams.size() = 1

 We are SAMPLING at time 499



*** Looping through 5.2. Iter = 547 


  iteration 547; minNextMutationTime = 510; timeNextPopSample = 500; popParams.size() = 1

 We are SAMPLING at time 500



*** Looping through 5.2. Iter = 548 


  iteration 548; minNextMutationTime = 511; timeNextPopSample = 501; popParams.size() = 1

 We are SAMPLING at time 501



*** Looping through 5.2. Iter = 549 


  iteration 549; minNextMutationTime = 512; timeNextPopSample = 502; popParams.size() = 1

 We are SAMPLING at time 502



*** Looping through 5.2. Iter = 550 


  iteration 550; minNextMutationTime = 513; timeNextPopSample = 503; popParams.size() = 1

 We are SAMPLING at time 503



*** Looping through 5.2. Iter = 551 


  iteration 551; minNextMutationTime = 514; timeNextPopSample = 504; popParams.size() = 1

 We are SAMPLING at time 504



*** Looping through 5.2. Iter = 552 


  iteration 552; minNextMutationTime = 515; timeNextPopSample = 505; popParams.size() = 1

 We are SAMPLING at time 505



*** Looping through 5.2. Iter = 553 


  iteration 553; minNextMutationTime = 516; timeNextPopSample = 506; popParams.size() = 1

 We are SAMPLING at time 506



*** Looping through 5.2. Iter = 554 


  iteration 554; minNextMutationTime = 517; timeNextPopSample = 507; popParams.size() = 1

 We are SAMPLING at time 507



*** Looping through 5.2. Iter = 555 


  iteration 555; minNextMutationTime = 518; timeNextPopSample = 508; popParams.size() = 1

 We are SAMPLING at time 508



*** Looping through 5.2. Iter = 556 


  iteration 556; minNextMutationTime = 519; timeNextPopSample = 509; popParams.size() = 1

 We are SAMPLING at time 509



*** Looping through 5.2. Iter = 557 


  iteration 557; minNextMutationTime = 509.923; timeNextPopSample = 510; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 558 


  iteration 558; minNextMutationTime = 520; timeNextPopSample = 510; popParams.size() = 2

 We are SAMPLING at time 510



*** Looping through 5.2. Iter = 559 


  iteration 559; minNextMutationTime = 521; timeNextPopSample = 511; popParams.size() = 2

 We are SAMPLING at time 511



*** Looping through 5.2. Iter = 560 


  iteration 560; minNextMutationTime = 522; timeNextPopSample = 512; popParams.size() = 2

 We are SAMPLING at time 512



*** Looping through 5.2. Iter = 561 


  iteration 561; minNextMutationTime = 523; timeNextPopSample = 513; popParams.size() = 2

 We are SAMPLING at time 513



*** Looping through 5.2. Iter = 562 


  iteration 562; minNextMutationTime = 524; timeNextPopSample = 514; popParams.size() = 2

 We are SAMPLING at time 514



*** Looping through 5.2. Iter = 563 


  iteration 563; minNextMutationTime = 525; timeNextPopSample = 515; popParams.size() = 2

 We are SAMPLING at time 515



*** Looping through 5.2. Iter = 564 


  iteration 564; minNextMutationTime = 526; timeNextPopSample = 516; popParams.size() = 2

 We are SAMPLING at time 516



*** Looping through 5.2. Iter = 565 


  iteration 565; minNextMutationTime = 527; timeNextPopSample = 517; popParams.size() = 2

 We are SAMPLING at time 517



*** Looping through 5.2. Iter = 566 


  iteration 566; minNextMutationTime = 528; timeNextPopSample = 518; popParams.size() = 2

 We are SAMPLING at time 518



*** Looping through 5.2. Iter = 567 


  iteration 567; minNextMutationTime = 529; timeNextPopSample = 519; popParams.size() = 2

 We are SAMPLING at time 519



*** Looping through 5.2. Iter = 568 


  iteration 568; minNextMutationTime = 530; timeNextPopSample = 520; popParams.size() = 2

 We are SAMPLING at time 520



*** Looping through 5.2. Iter = 569 


  iteration 569; minNextMutationTime = 531; timeNextPopSample = 521; popParams.size() = 2

 We are SAMPLING at time 521



*** Looping through 5.2. Iter = 570 


  iteration 570; minNextMutationTime = 532; timeNextPopSample = 522; popParams.size() = 2

 We are SAMPLING at time 522



*** Looping through 5.2. Iter = 571 


  iteration 571; minNextMutationTime = 533; timeNextPopSample = 523; popParams.size() = 2

 We are SAMPLING at time 523



*** Looping through 5.2. Iter = 572 


  iteration 572; minNextMutationTime = 534; timeNextPopSample = 524; popParams.size() = 2

 We are SAMPLING at time 524



*** Looping through 5.2. Iter = 573 


  iteration 573; minNextMutationTime = 535; timeNextPopSample = 525; popParams.size() = 2

 We are SAMPLING at time 525



*** Looping through 5.2. Iter = 574 


  iteration 574; minNextMutationTime = 536; timeNextPopSample = 526; popParams.size() = 2

 We are SAMPLING at time 526



*** Looping through 5.2. Iter = 575 


  iteration 575; minNextMutationTime = 537; timeNextPopSample = 527; popParams.size() = 2

 We are SAMPLING at time 527



*** Looping through 5.2. Iter = 576 


  iteration 576; minNextMutationTime = 538; timeNextPopSample = 528; popParams.size() = 2

 We are SAMPLING at time 528



*** Looping through 5.2. Iter = 577 


  iteration 577; minNextMutationTime = 539; timeNextPopSample = 529; popParams.size() = 2

 We are SAMPLING at time 529



*** Looping through 5.2. Iter = 578 


  iteration 578; minNextMutationTime = 540; timeNextPopSample = 530; popParams.size() = 2

 We are SAMPLING at time 530



*** Looping through 5.2. Iter = 579 


  iteration 579; minNextMutationTime = 541; timeNextPopSample = 531; popParams.size() = 2

 We are SAMPLING at time 531



*** Looping through 5.2. Iter = 580 


  iteration 580; minNextMutationTime = 531.183; timeNextPopSample = 532; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 581 


  iteration 581; minNextMutationTime = 542; timeNextPopSample = 532; popParams.size() = 3

 We are SAMPLING at time 532



*** Looping through 5.2. Iter = 582 


  iteration 582; minNextMutationTime = 543; timeNextPopSample = 533; popParams.size() = 2

 We are SAMPLING at time 533



*** Looping through 5.2. Iter = 583 


  iteration 583; minNextMutationTime = 544; timeNextPopSample = 534; popParams.size() = 2

 We are SAMPLING at time 534



*** Looping through 5.2. Iter = 584 


  iteration 584; minNextMutationTime = 545; timeNextPopSample = 535; popParams.size() = 2

 We are SAMPLING at time 535



*** Looping through 5.2. Iter = 585 


  iteration 585; minNextMutationTime = 546; timeNextPopSample = 536; popParams.size() = 2

 We are SAMPLING at time 536



*** Looping through 5.2. Iter = 586 


  iteration 586; minNextMutationTime = 547; timeNextPopSample = 537; popParams.size() = 2

 We are SAMPLING at time 537



*** Looping through 5.2. Iter = 587 


  iteration 587; minNextMutationTime = 548; timeNextPopSample = 538; popParams.size() = 2

 We are SAMPLING at time 538



*** Looping through 5.2. Iter = 588 


  iteration 588; minNextMutationTime = 549; timeNextPopSample = 539; popParams.size() = 2

 We are SAMPLING at time 539



*** Looping through 5.2. Iter = 589 


  iteration 589; minNextMutationTime = 550; timeNextPopSample = 540; popParams.size() = 2

 We are SAMPLING at time 540



*** Looping through 5.2. Iter = 590 


  iteration 590; minNextMutationTime = 551; timeNextPopSample = 541; popParams.size() = 2

 We are SAMPLING at time 541



*** Looping through 5.2. Iter = 591 


  iteration 591; minNextMutationTime = 541.778; timeNextPopSample = 542; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 592 


  iteration 592; minNextMutationTime = 541.818; timeNextPopSample = 542; popParams.size() = 3

     Mutated to existing species 2 (Genotype = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 1)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 1)
 New popSize = 2



*** Looping through 5.2. Iter = 593 


  iteration 593; minNextMutationTime = 552; timeNextPopSample = 542; popParams.size() = 3

 We are SAMPLING at time 542



*** Looping through 5.2. Iter = 594 


  iteration 594; minNextMutationTime = 553; timeNextPopSample = 543; popParams.size() = 3

 We are SAMPLING at time 543



*** Looping through 5.2. Iter = 595 


  iteration 595; minNextMutationTime = 554; timeNextPopSample = 544; popParams.size() = 3

 We are SAMPLING at time 544



*** Looping through 5.2. Iter = 596 


  iteration 596; minNextMutationTime = 555; timeNextPopSample = 545; popParams.size() = 3

 We are SAMPLING at time 545



*** Looping through 5.2. Iter = 597 


  iteration 597; minNextMutationTime = 545.268; timeNextPopSample = 546; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 598 


  iteration 598; minNextMutationTime = 556; timeNextPopSample = 546; popParams.size() = 3

 We are SAMPLING at time 546



*** Looping through 5.2. Iter = 599 


  iteration 599; minNextMutationTime = 546.63; timeNextPopSample = 547; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 600 


  iteration 600; minNextMutationTime = 546.811; timeNextPopSample = 547; popParams.size() = 3

     Creating new species   3         from species 0


*** Looping through 5.2. Iter = 601 


  iteration 601; minNextMutationTime = 557; timeNextPopSample = 547; popParams.size() = 4

 We are SAMPLING at time 547



*** Looping through 5.2. Iter = 602 


  iteration 602; minNextMutationTime = 558; timeNextPopSample = 548; popParams.size() = 3

 We are SAMPLING at time 548



*** Looping through 5.2. Iter = 603 


  iteration 603; minNextMutationTime = 559; timeNextPopSample = 549; popParams.size() = 3

 We are SAMPLING at time 549



*** Looping through 5.2. Iter = 604 


  iteration 604; minNextMutationTime = 560; timeNextPopSample = 550; popParams.size() = 2

 We are SAMPLING at time 550



*** Looping through 5.2. Iter = 605 


  iteration 605; minNextMutationTime = 561; timeNextPopSample = 551; popParams.size() = 2

 We are SAMPLING at time 551



*** Looping through 5.2. Iter = 606 


  iteration 606; minNextMutationTime = 551.65; timeNextPopSample = 552; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 607 


  iteration 607; minNextMutationTime = 562; timeNextPopSample = 552; popParams.size() = 3

 We are SAMPLING at time 552



*** Looping through 5.2. Iter = 608 


  iteration 608; minNextMutationTime = 563; timeNextPopSample = 553; popParams.size() = 3

 We are SAMPLING at time 553



*** Looping through 5.2. Iter = 609 


  iteration 609; minNextMutationTime = 564; timeNextPopSample = 554; popParams.size() = 3

 We are SAMPLING at time 554



*** Looping through 5.2. Iter = 610 


  iteration 610; minNextMutationTime = 565; timeNextPopSample = 555; popParams.size() = 3

 We are SAMPLING at time 555



*** Looping through 5.2. Iter = 611 


  iteration 611; minNextMutationTime = 555.315; timeNextPopSample = 556; popParams.size() = 3

     Creating new species   3         from species 0


*** Looping through 5.2. Iter = 612 


  iteration 612; minNextMutationTime = 566; timeNextPopSample = 556; popParams.size() = 4

 We are SAMPLING at time 556



*** Looping through 5.2. Iter = 613 


  iteration 613; minNextMutationTime = 567; timeNextPopSample = 557; popParams.size() = 2

 We are SAMPLING at time 557



*** Looping through 5.2. Iter = 614 


  iteration 614; minNextMutationTime = 568; timeNextPopSample = 558; popParams.size() = 2

 We are SAMPLING at time 558



*** Looping through 5.2. Iter = 615 


  iteration 615; minNextMutationTime = 558.352; timeNextPopSample = 559; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 616 


  iteration 616; minNextMutationTime = 569; timeNextPopSample = 559; popParams.size() = 3

 We are SAMPLING at time 559



*** Looping through 5.2. Iter = 617 


  iteration 617; minNextMutationTime = 570; timeNextPopSample = 560; popParams.size() = 3

 We are SAMPLING at time 560



*** Looping through 5.2. Iter = 618 


  iteration 618; minNextMutationTime = 571; timeNextPopSample = 561; popParams.size() = 2

 We are SAMPLING at time 561



*** Looping through 5.2. Iter = 619 


  iteration 619; minNextMutationTime = 572; timeNextPopSample = 562; popParams.size() = 2

 We are SAMPLING at time 562



*** Looping through 5.2. Iter = 620 


  iteration 620; minNextMutationTime = 573; timeNextPopSample = 563; popParams.size() = 2

 We are SAMPLING at time 563



*** Looping through 5.2. Iter = 621 


  iteration 621; minNextMutationTime = 574; timeNextPopSample = 564; popParams.size() = 2

 We are SAMPLING at time 564



*** Looping through 5.2. Iter = 622 


  iteration 622; minNextMutationTime = 575; timeNextPopSample = 565; popParams.size() = 2

 We are SAMPLING at time 565



*** Looping through 5.2. Iter = 623 


  iteration 623; minNextMutationTime = 576; timeNextPopSample = 566; popParams.size() = 2

 We are SAMPLING at time 566



*** Looping through 5.2. Iter = 624 


  iteration 624; minNextMutationTime = 577; timeNextPopSample = 567; popParams.size() = 2

 We are SAMPLING at time 567



*** Looping through 5.2. Iter = 625 


  iteration 625; minNextMutationTime = 578; timeNextPopSample = 568; popParams.size() = 2

 We are SAMPLING at time 568



*** Looping through 5.2. Iter = 626 


  iteration 626; minNextMutationTime = 579; timeNextPopSample = 569; popParams.size() = 2

 We are SAMPLING at time 569



*** Looping through 5.2. Iter = 627 


  iteration 627; minNextMutationTime = 580; timeNextPopSample = 570; popParams.size() = 2

 We are SAMPLING at time 570



*** Looping through 5.2. Iter = 628 


  iteration 628; minNextMutationTime = 581; timeNextPopSample = 571; popParams.size() = 2

 We are SAMPLING at time 571



*** Looping through 5.2. Iter = 629 


  iteration 629; minNextMutationTime = 582; timeNextPopSample = 572; popParams.size() = 2

 We are SAMPLING at time 572



*** Looping through 5.2. Iter = 630 


  iteration 630; minNextMutationTime = 583; timeNextPopSample = 573; popParams.size() = 2

 We are SAMPLING at time 573



*** Looping through 5.2. Iter = 631 


  iteration 631; minNextMutationTime = 584; timeNextPopSample = 574; popParams.size() = 2

 We are SAMPLING at time 574



*** Looping through 5.2. Iter = 632 


  iteration 632; minNextMutationTime = 574.936; timeNextPopSample = 575; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 633 


  iteration 633; minNextMutationTime = 585; timeNextPopSample = 575; popParams.size() = 3

 We are SAMPLING at time 575



*** Looping through 5.2. Iter = 634 


  iteration 634; minNextMutationTime = 586; timeNextPopSample = 576; popParams.size() = 3

 We are SAMPLING at time 576



*** Looping through 5.2. Iter = 635 


  iteration 635; minNextMutationTime = 587; timeNextPopSample = 577; popParams.size() = 3

 We are SAMPLING at time 577



*** Looping through 5.2. Iter = 636 


  iteration 636; minNextMutationTime = 588; timeNextPopSample = 578; popParams.size() = 3

 We are SAMPLING at time 578



*** Looping through 5.2. Iter = 637 


  iteration 637; minNextMutationTime = 589; timeNextPopSample = 579; popParams.size() = 3

 We are SAMPLING at time 579



*** Looping through 5.2. Iter = 638 


  iteration 638; minNextMutationTime = 590; timeNextPopSample = 580; popParams.size() = 3

 We are SAMPLING at time 580



*** Looping through 5.2. Iter = 639 


  iteration 639; minNextMutationTime = 580.273; timeNextPopSample = 581; popParams.size() = 3

     Creating new species   3         from species 0


*** Looping through 5.2. Iter = 640 


  iteration 640; minNextMutationTime = 591; timeNextPopSample = 581; popParams.size() = 4

 We are SAMPLING at time 581



*** Looping through 5.2. Iter = 641 


  iteration 641; minNextMutationTime = 592; timeNextPopSample = 582; popParams.size() = 4

 We are SAMPLING at time 582



*** Looping through 5.2. Iter = 642 


  iteration 642; minNextMutationTime = 593; timeNextPopSample = 583; popParams.size() = 4

 We are SAMPLING at time 583



*** Looping through 5.2. Iter = 643 


  iteration 643; minNextMutationTime = 583.62; timeNextPopSample = 584; popParams.size() = 3

     Creating new species   3         from species 0


*** Looping through 5.2. Iter = 644 


  iteration 644; minNextMutationTime = 594; timeNextPopSample = 584; popParams.size() = 4

 We are SAMPLING at time 584



*** Looping through 5.2. Iter = 645 


  iteration 645; minNextMutationTime = 595; timeNextPopSample = 585; popParams.size() = 4

 We are SAMPLING at time 585



*** Looping through 5.2. Iter = 646 


  iteration 646; minNextMutationTime = 596; timeNextPopSample = 586; popParams.size() = 3

 We are SAMPLING at time 586



*** Looping through 5.2. Iter = 647 


  iteration 647; minNextMutationTime = 597; timeNextPopSample = 587; popParams.size() = 2

 We are SAMPLING at time 587



*** Looping through 5.2. Iter = 648 


  iteration 648; minNextMutationTime = 598; timeNextPopSample = 588; popParams.size() = 2

 We are SAMPLING at time 588



*** Looping through 5.2. Iter = 649 


  iteration 649; minNextMutationTime = 599; timeNextPopSample = 589; popParams.size() = 2

 We are SAMPLING at time 589



*** Looping through 5.2. Iter = 650 


  iteration 650; minNextMutationTime = 589.353; timeNextPopSample = 590; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 651 


  iteration 651; minNextMutationTime = 600; timeNextPopSample = 590; popParams.size() = 3

 We are SAMPLING at time 590



*** Looping through 5.2. Iter = 652 


  iteration 652; minNextMutationTime = 601; timeNextPopSample = 591; popParams.size() = 3

 We are SAMPLING at time 591



*** Looping through 5.2. Iter = 653 


  iteration 653; minNextMutationTime = 602; timeNextPopSample = 592; popParams.size() = 3

 We are SAMPLING at time 592



*** Looping through 5.2. Iter = 654 


  iteration 654; minNextMutationTime = 603; timeNextPopSample = 593; popParams.size() = 3

 We are SAMPLING at time 593



*** Looping through 5.2. Iter = 655 


  iteration 655; minNextMutationTime = 604; timeNextPopSample = 594; popParams.size() = 3

 We are SAMPLING at time 594



*** Looping through 5.2. Iter = 656 


  iteration 656; minNextMutationTime = 605; timeNextPopSample = 595; popParams.size() = 3

 We are SAMPLING at time 595



*** Looping through 5.2. Iter = 657 


  iteration 657; minNextMutationTime = 606; timeNextPopSample = 596; popParams.size() = 3

 We are SAMPLING at time 596



*** Looping through 5.2. Iter = 658 


  iteration 658; minNextMutationTime = 607; timeNextPopSample = 597; popParams.size() = 3

 We are SAMPLING at time 597



*** Looping through 5.2. Iter = 659 


  iteration 659; minNextMutationTime = 608; timeNextPopSample = 598; popParams.size() = 3

 We are SAMPLING at time 598



*** Looping through 5.2. Iter = 660 


  iteration 660; minNextMutationTime = 609; timeNextPopSample = 599; popParams.size() = 3

 We are SAMPLING at time 599



*** Looping through 5.2. Iter = 661 


  iteration 661; minNextMutationTime = 610; timeNextPopSample = 600; popParams.size() = 3

 We are SAMPLING at time 600



*** Looping through 5.2. Iter = 662 


  iteration 662; minNextMutationTime = 611; timeNextPopSample = 601; popParams.size() = 3

 We are SAMPLING at time 601



*** Looping through 5.2. Iter = 663 


  iteration 663; minNextMutationTime = 612; timeNextPopSample = 602; popParams.size() = 3

 We are SAMPLING at time 602



*** Looping through 5.2. Iter = 664 


  iteration 664; minNextMutationTime = 613; timeNextPopSample = 603; popParams.size() = 3

 We are SAMPLING at time 603



*** Looping through 5.2. Iter = 665 


  iteration 665; minNextMutationTime = 614; timeNextPopSample = 604; popParams.size() = 3

 We are SAMPLING at time 604



*** Looping through 5.2. Iter = 666 


  iteration 666; minNextMutationTime = 604.893; timeNextPopSample = 605; popParams.size() = 3

     Creating new species   3         from species 0


*** Looping through 5.2. Iter = 667 


  iteration 667; minNextMutationTime = 615; timeNextPopSample = 605; popParams.size() = 4

 We are SAMPLING at time 605



*** Looping through 5.2. Iter = 668 


  iteration 668; minNextMutationTime = 616; timeNextPopSample = 606; popParams.size() = 4

 We are SAMPLING at time 606



*** Looping through 5.2. Iter = 669 


  iteration 669; minNextMutationTime = 617; timeNextPopSample = 607; popParams.size() = 4

 We are SAMPLING at time 607



*** Looping through 5.2. Iter = 670 


  iteration 670; minNextMutationTime = 618; timeNextPopSample = 608; popParams.size() = 3

 We are SAMPLING at time 608



*** Looping through 5.2. Iter = 671 


  iteration 671; minNextMutationTime = 619; timeNextPopSample = 609; popParams.size() = 3

 We are SAMPLING at time 609



*** Looping through 5.2. Iter = 672 


  iteration 672; minNextMutationTime = 620; timeNextPopSample = 610; popParams.size() = 3

 We are SAMPLING at time 610



*** Looping through 5.2. Iter = 673 


  iteration 673; minNextMutationTime = 621; timeNextPopSample = 611; popParams.size() = 2

 We are SAMPLING at time 611



*** Looping through 5.2. Iter = 674 


  iteration 674; minNextMutationTime = 622; timeNextPopSample = 612; popParams.size() = 2

 We are SAMPLING at time 612



*** Looping through 5.2. Iter = 675 


  iteration 675; minNextMutationTime = 623; timeNextPopSample = 613; popParams.size() = 2

 We are SAMPLING at time 613



*** Looping through 5.2. Iter = 676 


  iteration 676; minNextMutationTime = 613.156; timeNextPopSample = 614; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 677 


  iteration 677; minNextMutationTime = 624; timeNextPopSample = 614; popParams.size() = 3

 We are SAMPLING at time 614



*** Looping through 5.2. Iter = 678 


  iteration 678; minNextMutationTime = 625; timeNextPopSample = 615; popParams.size() = 2

 We are SAMPLING at time 615



*** Looping through 5.2. Iter = 679 


  iteration 679; minNextMutationTime = 626; timeNextPopSample = 616; popParams.size() = 2

 We are SAMPLING at time 616



*** Looping through 5.2. Iter = 680 


  iteration 680; minNextMutationTime = 627; timeNextPopSample = 617; popParams.size() = 2

 We are SAMPLING at time 617



*** Looping through 5.2. Iter = 681 


  iteration 681; minNextMutationTime = 628; timeNextPopSample = 618; popParams.size() = 2

 We are SAMPLING at time 618



*** Looping through 5.2. Iter = 682 


  iteration 682; minNextMutationTime = 629; timeNextPopSample = 619; popParams.size() = 2

 We are SAMPLING at time 619



*** Looping through 5.2. Iter = 683 


  iteration 683; minNextMutationTime = 630; timeNextPopSample = 620; popParams.size() = 2

 We are SAMPLING at time 620



*** Looping through 5.2. Iter = 684 


  iteration 684; minNextMutationTime = 631; timeNextPopSample = 621; popParams.size() = 2

 We are SAMPLING at time 621



*** Looping through 5.2. Iter = 685 


  iteration 685; minNextMutationTime = 621.118; timeNextPopSample = 622; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 686 


  iteration 686; minNextMutationTime = 632; timeNextPopSample = 622; popParams.size() = 3

 We are SAMPLING at time 622



*** Looping through 5.2. Iter = 687 


  iteration 687; minNextMutationTime = 633; timeNextPopSample = 623; popParams.size() = 2

 We are SAMPLING at time 623



*** Looping through 5.2. Iter = 688 


  iteration 688; minNextMutationTime = 634; timeNextPopSample = 624; popParams.size() = 2

 We are SAMPLING at time 624



*** Looping through 5.2. Iter = 689 


  iteration 689; minNextMutationTime = 635; timeNextPopSample = 625; popParams.size() = 2

 We are SAMPLING at time 625



*** Looping through 5.2. Iter = 690 


  iteration 690; minNextMutationTime = 636; timeNextPopSample = 626; popParams.size() = 2

 We are SAMPLING at time 626



*** Looping through 5.2. Iter = 691 


  iteration 691; minNextMutationTime = 637; timeNextPopSample = 627; popParams.size() = 2

 We are SAMPLING at time 627



*** Looping through 5.2. Iter = 692 


  iteration 692; minNextMutationTime = 638; timeNextPopSample = 628; popParams.size() = 2

 We are SAMPLING at time 628



*** Looping through 5.2. Iter = 693 


  iteration 693; minNextMutationTime = 639; timeNextPopSample = 629; popParams.size() = 2

 We are SAMPLING at time 629



*** Looping through 5.2. Iter = 694 


  iteration 694; minNextMutationTime = 640; timeNextPopSample = 630; popParams.size() = 2

 We are SAMPLING at time 630



*** Looping through 5.2. Iter = 695 


  iteration 695; minNextMutationTime = 641; timeNextPopSample = 631; popParams.size() = 2

 We are SAMPLING at time 631



*** Looping through 5.2. Iter = 696 


  iteration 696; minNextMutationTime = 642; timeNextPopSample = 632; popParams.size() = 2

 We are SAMPLING at time 632



*** Looping through 5.2. Iter = 697 


  iteration 697; minNextMutationTime = 632.578; timeNextPopSample = 633; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 698 


  iteration 698; minNextMutationTime = 643; timeNextPopSample = 633; popParams.size() = 3

 We are SAMPLING at time 633



*** Looping through 5.2. Iter = 699 


  iteration 699; minNextMutationTime = 644; timeNextPopSample = 634; popParams.size() = 3

 We are SAMPLING at time 634



*** Looping through 5.2. Iter = 700 


  iteration 700; minNextMutationTime = 645; timeNextPopSample = 635; popParams.size() = 3

 We are SAMPLING at time 635



*** Looping through 5.2. Iter = 701 


  iteration 701; minNextMutationTime = 646; timeNextPopSample = 636; popParams.size() = 3

 We are SAMPLING at time 636



*** Looping through 5.2. Iter = 702 


  iteration 702; minNextMutationTime = 647; timeNextPopSample = 637; popParams.size() = 3

 We are SAMPLING at time 637



*** Looping through 5.2. Iter = 703 


  iteration 703; minNextMutationTime = 648; timeNextPopSample = 638; popParams.size() = 3

 We are SAMPLING at time 638



*** Looping through 5.2. Iter = 704 


  iteration 704; minNextMutationTime = 649; timeNextPopSample = 639; popParams.size() = 3

 We are SAMPLING at time 639



*** Looping through 5.2. Iter = 705 


  iteration 705; minNextMutationTime = 650; timeNextPopSample = 640; popParams.size() = 2

 We are SAMPLING at time 640



*** Looping through 5.2. Iter = 706 


  iteration 706; minNextMutationTime = 651; timeNextPopSample = 641; popParams.size() = 2

 We are SAMPLING at time 641



*** Looping through 5.2. Iter = 707 


  iteration 707; minNextMutationTime = 652; timeNextPopSample = 642; popParams.size() = 2

 We are SAMPLING at time 642



*** Looping through 5.2. Iter = 708 


  iteration 708; minNextMutationTime = 653; timeNextPopSample = 643; popParams.size() = 2

 We are SAMPLING at time 643



*** Looping through 5.2. Iter = 709 


  iteration 709; minNextMutationTime = 654; timeNextPopSample = 644; popParams.size() = 2

 We are SAMPLING at time 644



*** Looping through 5.2. Iter = 710 


  iteration 710; minNextMutationTime = 655; timeNextPopSample = 645; popParams.size() = 2

 We are SAMPLING at time 645



*** Looping through 5.2. Iter = 711 


  iteration 711; minNextMutationTime = 656; timeNextPopSample = 646; popParams.size() = 2

 We are SAMPLING at time 646



*** Looping through 5.2. Iter = 712 


  iteration 712; minNextMutationTime = 657; timeNextPopSample = 647; popParams.size() = 2

 We are SAMPLING at time 647



*** Looping through 5.2. Iter = 713 


  iteration 713; minNextMutationTime = 658; timeNextPopSample = 648; popParams.size() = 2

 We are SAMPLING at time 648



*** Looping through 5.2. Iter = 714 


  iteration 714; minNextMutationTime = 659; timeNextPopSample = 649; popParams.size() = 2

 We are SAMPLING at time 649



*** Looping through 5.2. Iter = 715 


  iteration 715; minNextMutationTime = 660; timeNextPopSample = 650; popParams.size() = 2

 We are SAMPLING at time 650



*** Looping through 5.2. Iter = 716 


  iteration 716; minNextMutationTime = 661; timeNextPopSample = 651; popParams.size() = 2

 We are SAMPLING at time 651



*** Looping through 5.2. Iter = 717 


  iteration 717; minNextMutationTime = 662; timeNextPopSample = 652; popParams.size() = 2

 We are SAMPLING at time 652



*** Looping through 5.2. Iter = 718 


  iteration 718; minNextMutationTime = 663; timeNextPopSample = 653; popParams.size() = 2

 We are SAMPLING at time 653



*** Looping through 5.2. Iter = 719 


  iteration 719; minNextMutationTime = 664; timeNextPopSample = 654; popParams.size() = 2

 We are SAMPLING at time 654



*** Looping through 5.2. Iter = 720 


  iteration 720; minNextMutationTime = 665; timeNextPopSample = 655; popParams.size() = 2

 We are SAMPLING at time 655



*** Looping through 5.2. Iter = 721 


  iteration 721; minNextMutationTime = 666; timeNextPopSample = 656; popParams.size() = 2

 We are SAMPLING at time 656



*** Looping through 5.2. Iter = 722 


  iteration 722; minNextMutationTime = 667; timeNextPopSample = 657; popParams.size() = 2

 We are SAMPLING at time 657



*** Looping through 5.2. Iter = 723 


  iteration 723; minNextMutationTime = 668; timeNextPopSample = 658; popParams.size() = 2

 We are SAMPLING at time 658



*** Looping through 5.2. Iter = 724 


  iteration 724; minNextMutationTime = 669; timeNextPopSample = 659; popParams.size() = 2

 We are SAMPLING at time 659



*** Looping through 5.2. Iter = 725 


  iteration 725; minNextMutationTime = 670; timeNextPopSample = 660; popParams.size() = 2

 We are SAMPLING at time 660



*** Looping through 5.2. Iter = 726 


  iteration 726; minNextMutationTime = 671; timeNextPopSample = 661; popParams.size() = 2

 We are SAMPLING at time 661



*** Looping through 5.2. Iter = 727 


  iteration 727; minNextMutationTime = 672; timeNextPopSample = 662; popParams.size() = 2

 We are SAMPLING at time 662



*** Looping through 5.2. Iter = 728 


  iteration 728; minNextMutationTime = 673; timeNextPopSample = 663; popParams.size() = 2

 We are SAMPLING at time 663



*** Looping through 5.2. Iter = 729 


  iteration 729; minNextMutationTime = 674; timeNextPopSample = 664; popParams.size() = 2

 We are SAMPLING at time 664



*** Looping through 5.2. Iter = 730 


  iteration 730; minNextMutationTime = 675; timeNextPopSample = 665; popParams.size() = 2

 We are SAMPLING at time 665



*** Looping through 5.2. Iter = 731 


  iteration 731; minNextMutationTime = 676; timeNextPopSample = 666; popParams.size() = 2

 We are SAMPLING at time 666



*** Looping through 5.2. Iter = 732 


  iteration 732; minNextMutationTime = 677; timeNextPopSample = 667; popParams.size() = 2

 We are SAMPLING at time 667



*** Looping through 5.2. Iter = 733 


  iteration 733; minNextMutationTime = 678; timeNextPopSample = 668; popParams.size() = 2

 We are SAMPLING at time 668



*** Looping through 5.2. Iter = 734 


  iteration 734; minNextMutationTime = 679; timeNextPopSample = 669; popParams.size() = 2

 We are SAMPLING at time 669



*** Looping through 5.2. Iter = 735 


  iteration 735; minNextMutationTime = 680; timeNextPopSample = 670; popParams.size() = 2

 We are SAMPLING at time 670



*** Looping through 5.2. Iter = 736 


  iteration 736; minNextMutationTime = 681; timeNextPopSample = 671; popParams.size() = 2

 We are SAMPLING at time 671



*** Looping through 5.2. Iter = 737 


  iteration 737; minNextMutationTime = 682; timeNextPopSample = 672; popParams.size() = 2

 We are SAMPLING at time 672



*** Looping through 5.2. Iter = 738 


  iteration 738; minNextMutationTime = 683; timeNextPopSample = 673; popParams.size() = 2

 We are SAMPLING at time 673



*** Looping through 5.2. Iter = 739 


  iteration 739; minNextMutationTime = 684; timeNextPopSample = 674; popParams.size() = 2

 We are SAMPLING at time 674



*** Looping through 5.2. Iter = 740 


  iteration 740; minNextMutationTime = 674.179; timeNextPopSample = 675; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 741 


  iteration 741; minNextMutationTime = 685; timeNextPopSample = 675; popParams.size() = 3

 We are SAMPLING at time 675



*** Looping through 5.2. Iter = 742 


  iteration 742; minNextMutationTime = 686; timeNextPopSample = 676; popParams.size() = 3

 We are SAMPLING at time 676



*** Looping through 5.2. Iter = 743 


  iteration 743; minNextMutationTime = 687; timeNextPopSample = 677; popParams.size() = 3

 We are SAMPLING at time 677



*** Looping through 5.2. Iter = 744 


  iteration 744; minNextMutationTime = 688; timeNextPopSample = 678; popParams.size() = 3

 We are SAMPLING at time 678



*** Looping through 5.2. Iter = 745 


  iteration 745; minNextMutationTime = 689; timeNextPopSample = 679; popParams.size() = 2

 We are SAMPLING at time 679



*** Looping through 5.2. Iter = 746 


  iteration 746; minNextMutationTime = 690; timeNextPopSample = 680; popParams.size() = 2

 We are SAMPLING at time 680



*** Looping through 5.2. Iter = 747 


  iteration 747; minNextMutationTime = 691; timeNextPopSample = 681; popParams.size() = 2

 We are SAMPLING at time 681



*** Looping through 5.2. Iter = 748 


  iteration 748; minNextMutationTime = 692; timeNextPopSample = 682; popParams.size() = 2

 We are SAMPLING at time 682



*** Looping through 5.2. Iter = 749 


  iteration 749; minNextMutationTime = 693; timeNextPopSample = 683; popParams.size() = 2

 We are SAMPLING at time 683



*** Looping through 5.2. Iter = 750 


  iteration 750; minNextMutationTime = 683.963; timeNextPopSample = 684; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 751 


  iteration 751; minNextMutationTime = 694; timeNextPopSample = 684; popParams.size() = 3

 We are SAMPLING at time 684



*** Looping through 5.2. Iter = 752 


  iteration 752; minNextMutationTime = 695; timeNextPopSample = 685; popParams.size() = 3

 We are SAMPLING at time 685



*** Looping through 5.2. Iter = 753 


  iteration 753; minNextMutationTime = 696; timeNextPopSample = 686; popParams.size() = 2

 We are SAMPLING at time 686



*** Looping through 5.2. Iter = 754 


  iteration 754; minNextMutationTime = 697; timeNextPopSample = 687; popParams.size() = 2

 We are SAMPLING at time 687



*** Looping through 5.2. Iter = 755 


  iteration 755; minNextMutationTime = 698; timeNextPopSample = 688; popParams.size() = 2

 We are SAMPLING at time 688



*** Looping through 5.2. Iter = 756 


  iteration 756; minNextMutationTime = 699; timeNextPopSample = 689; popParams.size() = 2

 We are SAMPLING at time 689



*** Looping through 5.2. Iter = 757 


  iteration 757; minNextMutationTime = 700; timeNextPopSample = 690; popParams.size() = 2

 We are SAMPLING at time 690



*** Looping through 5.2. Iter = 758 


  iteration 758; minNextMutationTime = 701; timeNextPopSample = 691; popParams.size() = 2

 We are SAMPLING at time 691



*** Looping through 5.2. Iter = 759 


  iteration 759; minNextMutationTime = 702; timeNextPopSample = 692; popParams.size() = 2

 We are SAMPLING at time 692



*** Looping through 5.2. Iter = 760 


  iteration 760; minNextMutationTime = 703; timeNextPopSample = 693; popParams.size() = 2

 We are SAMPLING at time 693



*** Looping through 5.2. Iter = 761 


  iteration 761; minNextMutationTime = 704; timeNextPopSample = 694; popParams.size() = 2

 We are SAMPLING at time 694



*** Looping through 5.2. Iter = 762 


  iteration 762; minNextMutationTime = 705; timeNextPopSample = 695; popParams.size() = 2

 We are SAMPLING at time 695



*** Looping through 5.2. Iter = 763 


  iteration 763; minNextMutationTime = 706; timeNextPopSample = 696; popParams.size() = 2

 We are SAMPLING at time 696



*** Looping through 5.2. Iter = 764 


  iteration 764; minNextMutationTime = 707; timeNextPopSample = 697; popParams.size() = 2

 We are SAMPLING at time 697



*** Looping through 5.2. Iter = 765 


  iteration 765; minNextMutationTime = 708; timeNextPopSample = 698; popParams.size() = 2

 We are SAMPLING at time 698



*** Looping through 5.2. Iter = 766 


  iteration 766; minNextMutationTime = 709; timeNextPopSample = 699; popParams.size() = 2

 We are SAMPLING at time 699



*** Looping through 5.2. Iter = 767 


  iteration 767; minNextMutationTime = 710; timeNextPopSample = 700; popParams.size() = 2

 We are SAMPLING at time 700



*** Looping through 5.2. Iter = 768 


  iteration 768; minNextMutationTime = 711; timeNextPopSample = 701; popParams.size() = 2

 We are SAMPLING at time 701



*** Looping through 5.2. Iter = 769 


  iteration 769; minNextMutationTime = 712; timeNextPopSample = 702; popParams.size() = 2

 We are SAMPLING at time 702



*** Looping through 5.2. Iter = 770 


  iteration 770; minNextMutationTime = 713; timeNextPopSample = 703; popParams.size() = 2

 We are SAMPLING at time 703



*** Looping through 5.2. Iter = 771 


  iteration 771; minNextMutationTime = 714; timeNextPopSample = 704; popParams.size() = 2

 We are SAMPLING at time 704



*** Looping through 5.2. Iter = 772 


  iteration 772; minNextMutationTime = 715; timeNextPopSample = 705; popParams.size() = 2

 We are SAMPLING at time 705



*** Looping through 5.2. Iter = 773 


  iteration 773; minNextMutationTime = 716; timeNextPopSample = 706; popParams.size() = 2

 We are SAMPLING at time 706



*** Looping through 5.2. Iter = 774 


  iteration 774; minNextMutationTime = 717; timeNextPopSample = 707; popParams.size() = 2

 We are SAMPLING at time 707



*** Looping through 5.2. Iter = 775 


  iteration 775; minNextMutationTime = 718; timeNextPopSample = 708; popParams.size() = 2

 We are SAMPLING at time 708



*** Looping through 5.2. Iter = 776 


  iteration 776; minNextMutationTime = 719; timeNextPopSample = 709; popParams.size() = 2

 We are SAMPLING at time 709



*** Looping through 5.2. Iter = 777 


  iteration 777; minNextMutationTime = 720; timeNextPopSample = 710; popParams.size() = 2

 We are SAMPLING at time 710



*** Looping through 5.2. Iter = 778 


  iteration 778; minNextMutationTime = 721; timeNextPopSample = 711; popParams.size() = 2

 We are SAMPLING at time 711



*** Looping through 5.2. Iter = 779 


  iteration 779; minNextMutationTime = 722; timeNextPopSample = 712; popParams.size() = 2

 We are SAMPLING at time 712



*** Looping through 5.2. Iter = 780 


  iteration 780; minNextMutationTime = 723; timeNextPopSample = 713; popParams.size() = 2

 We are SAMPLING at time 713



*** Looping through 5.2. Iter = 781 


  iteration 781; minNextMutationTime = 724; timeNextPopSample = 714; popParams.size() = 2

 We are SAMPLING at time 714



*** Looping through 5.2. Iter = 782 


  iteration 782; minNextMutationTime = 725; timeNextPopSample = 715; popParams.size() = 2

 We are SAMPLING at time 715



*** Looping through 5.2. Iter = 783 


  iteration 783; minNextMutationTime = 726; timeNextPopSample = 716; popParams.size() = 2

 We are SAMPLING at time 716



*** Looping through 5.2. Iter = 784 


  iteration 784; minNextMutationTime = 727; timeNextPopSample = 717; popParams.size() = 2

 We are SAMPLING at time 717



*** Looping through 5.2. Iter = 785 


  iteration 785; minNextMutationTime = 717.879; timeNextPopSample = 718; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 786 


  iteration 786; minNextMutationTime = 728; timeNextPopSample = 718; popParams.size() = 3

 We are SAMPLING at time 718



*** Looping through 5.2. Iter = 787 


  iteration 787; minNextMutationTime = 729; timeNextPopSample = 719; popParams.size() = 3

 We are SAMPLING at time 719



*** Looping through 5.2. Iter = 788 


  iteration 788; minNextMutationTime = 730; timeNextPopSample = 720; popParams.size() = 3

 We are SAMPLING at time 720



*** Looping through 5.2. Iter = 789 


  iteration 789; minNextMutationTime = 731; timeNextPopSample = 721; popParams.size() = 2

 We are SAMPLING at time 721



*** Looping through 5.2. Iter = 790 


  iteration 790; minNextMutationTime = 732; timeNextPopSample = 722; popParams.size() = 2

 We are SAMPLING at time 722



*** Looping through 5.2. Iter = 791 


  iteration 791; minNextMutationTime = 733; timeNextPopSample = 723; popParams.size() = 2

 We are SAMPLING at time 723



*** Looping through 5.2. Iter = 792 


  iteration 792; minNextMutationTime = 734; timeNextPopSample = 724; popParams.size() = 2

 We are SAMPLING at time 724



*** Looping through 5.2. Iter = 793 


  iteration 793; minNextMutationTime = 735; timeNextPopSample = 725; popParams.size() = 2

 We are SAMPLING at time 725



*** Looping through 5.2. Iter = 794 


  iteration 794; minNextMutationTime = 736; timeNextPopSample = 726; popParams.size() = 2

 We are SAMPLING at time 726



*** Looping through 5.2. Iter = 795 


  iteration 795; minNextMutationTime = 737; timeNextPopSample = 727; popParams.size() = 2

 We are SAMPLING at time 727



*** Looping through 5.2. Iter = 796 


  iteration 796; minNextMutationTime = 727.114; timeNextPopSample = 728; popParams.size() = 2

     Mutated to existing species 1 (Genotype = 0000000000000000000000000000000000000000000000000000000000100000; sp_id = 32)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 32)
 New popSize = 151



*** Looping through 5.2. Iter = 797 


  iteration 797; minNextMutationTime = 738; timeNextPopSample = 728; popParams.size() = 2

 We are SAMPLING at time 728



*** Looping through 5.2. Iter = 798 


  iteration 798; minNextMutationTime = 739; timeNextPopSample = 729; popParams.size() = 2

 We are SAMPLING at time 729



*** Looping through 5.2. Iter = 799 


  iteration 799; minNextMutationTime = 740; timeNextPopSample = 730; popParams.size() = 2

 We are SAMPLING at time 730



*** Looping through 5.2. Iter = 800 


  iteration 800; minNextMutationTime = 741; timeNextPopSample = 731; popParams.size() = 2

 We are SAMPLING at time 731



*** Looping through 5.2. Iter = 801 


  iteration 801; minNextMutationTime = 742; timeNextPopSample = 732; popParams.size() = 2

 We are SAMPLING at time 732



*** Looping through 5.2. Iter = 802 


  iteration 802; minNextMutationTime = 743; timeNextPopSample = 733; popParams.size() = 2

 We are SAMPLING at time 733



*** Looping through 5.2. Iter = 803 


  iteration 803; minNextMutationTime = 744; timeNextPopSample = 734; popParams.size() = 2

 We are SAMPLING at time 734



*** Looping through 5.2. Iter = 804 


  iteration 804; minNextMutationTime = 745; timeNextPopSample = 735; popParams.size() = 2

 We are SAMPLING at time 735



*** Looping through 5.2. Iter = 805 


  iteration 805; minNextMutationTime = 746; timeNextPopSample = 736; popParams.size() = 2

 We are SAMPLING at time 736



*** Looping through 5.2. Iter = 806 


  iteration 806; minNextMutationTime = 747; timeNextPopSample = 737; popParams.size() = 2

 We are SAMPLING at time 737



*** Looping through 5.2. Iter = 807 


  iteration 807; minNextMutationTime = 748; timeNextPopSample = 738; popParams.size() = 2

 We are SAMPLING at time 738



*** Looping through 5.2. Iter = 808 


  iteration 808; minNextMutationTime = 749; timeNextPopSample = 739; popParams.size() = 2

 We are SAMPLING at time 739



*** Looping through 5.2. Iter = 809 


  iteration 809; minNextMutationTime = 750; timeNextPopSample = 740; popParams.size() = 2

 We are SAMPLING at time 740



*** Looping through 5.2. Iter = 810 


  iteration 810; minNextMutationTime = 751; timeNextPopSample = 741; popParams.size() = 2

 We are SAMPLING at time 741



*** Looping through 5.2. Iter = 811 


  iteration 811; minNextMutationTime = 752; timeNextPopSample = 742; popParams.size() = 2

 We are SAMPLING at time 742



*** Looping through 5.2. Iter = 812 


  iteration 812; minNextMutationTime = 753; timeNextPopSample = 743; popParams.size() = 2

 We are SAMPLING at time 743



*** Looping through 5.2. Iter = 813 


  iteration 813; minNextMutationTime = 754; timeNextPopSample = 744; popParams.size() = 2

 We are SAMPLING at time 744



*** Looping through 5.2. Iter = 814 


  iteration 814; minNextMutationTime = 755; timeNextPopSample = 745; popParams.size() = 2

 We are SAMPLING at time 745



*** Looping through 5.2. Iter = 815 


  iteration 815; minNextMutationTime = 756; timeNextPopSample = 746; popParams.size() = 2

 We are SAMPLING at time 746



*** Looping through 5.2. Iter = 816 


  iteration 816; minNextMutationTime = 757; timeNextPopSample = 747; popParams.size() = 2

 We are SAMPLING at time 747



*** Looping through 5.2. Iter = 817 


  iteration 817; minNextMutationTime = 758; timeNextPopSample = 748; popParams.size() = 2

 We are SAMPLING at time 748



*** Looping through 5.2. Iter = 818 


  iteration 818; minNextMutationTime = 759; timeNextPopSample = 749; popParams.size() = 2

 We are SAMPLING at time 749



*** Looping through 5.2. Iter = 819 


  iteration 819; minNextMutationTime = 760; timeNextPopSample = 750; popParams.size() = 2

 We are SAMPLING at time 750



*** Looping through 5.2. Iter = 820 


  iteration 820; minNextMutationTime = 761; timeNextPopSample = 751; popParams.size() = 2

 We are SAMPLING at time 751



*** Looping through 5.2. Iter = 821 


  iteration 821; minNextMutationTime = 762; timeNextPopSample = 752; popParams.size() = 2

 We are SAMPLING at time 752



*** Looping through 5.2. Iter = 822 


  iteration 822; minNextMutationTime = 763; timeNextPopSample = 753; popParams.size() = 2

 We are SAMPLING at time 753



*** Looping through 5.2. Iter = 823 


  iteration 823; minNextMutationTime = 764; timeNextPopSample = 754; popParams.size() = 2

 We are SAMPLING at time 754



*** Looping through 5.2. Iter = 824 


  iteration 824; minNextMutationTime = 765; timeNextPopSample = 755; popParams.size() = 2

 We are SAMPLING at time 755



*** Looping through 5.2. Iter = 825 


  iteration 825; minNextMutationTime = 766; timeNextPopSample = 756; popParams.size() = 2

 We are SAMPLING at time 756



*** Looping through 5.2. Iter = 826 


  iteration 826; minNextMutationTime = 756.947; timeNextPopSample = 757; popParams.size() = 2

     Mutated to existing species 1 (Genotype = 0000000000000000000000000000000000000000000000000000000000100000; sp_id = 32)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 32)
 New popSize = 78



*** Looping through 5.2. Iter = 827 


  iteration 827; minNextMutationTime = 767; timeNextPopSample = 757; popParams.size() = 2

 We are SAMPLING at time 757



*** Looping through 5.2. Iter = 828 


  iteration 828; minNextMutationTime = 768; timeNextPopSample = 758; popParams.size() = 2

 We are SAMPLING at time 758



*** Looping through 5.2. Iter = 829 


  iteration 829; minNextMutationTime = 769; timeNextPopSample = 759; popParams.size() = 2

 We are SAMPLING at time 759



*** Looping through 5.2. Iter = 830 


  iteration 830; minNextMutationTime = 770; timeNextPopSample = 760; popParams.size() = 2

 We are SAMPLING at time 760



*** Looping through 5.2. Iter = 831 


  iteration 831; minNextMutationTime = 771; timeNextPopSample = 761; popParams.size() = 2

 We are SAMPLING at time 761



*** Looping through 5.2. Iter = 832 


  iteration 832; minNextMutationTime = 772; timeNextPopSample = 762; popParams.size() = 2

 We are SAMPLING at time 762



*** Looping through 5.2. Iter = 833 


  iteration 833; minNextMutationTime = 773; timeNextPopSample = 763; popParams.size() = 2

 We are SAMPLING at time 763



*** Looping through 5.2. Iter = 834 


  iteration 834; minNextMutationTime = 774; timeNextPopSample = 764; popParams.size() = 2

 We are SAMPLING at time 764



*** Looping through 5.2. Iter = 835 


  iteration 835; minNextMutationTime = 764.994; timeNextPopSample = 765; popParams.size() = 2

     Mutated to existing species 1 (Genotype = 0000000000000000000000000000000000000000000000000000000000100000; sp_id = 32)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 32)
 New popSize = 28



*** Looping through 5.2. Iter = 836 


  iteration 836; minNextMutationTime = 775; timeNextPopSample = 765; popParams.size() = 2

 We are SAMPLING at time 765



*** Looping through 5.2. Iter = 837 


  iteration 837; minNextMutationTime = 776; timeNextPopSample = 766; popParams.size() = 2

 We are SAMPLING at time 766



*** Looping through 5.2. Iter = 838 


  iteration 838; minNextMutationTime = 777; timeNextPopSample = 767; popParams.size() = 2

 We are SAMPLING at time 767



*** Looping through 5.2. Iter = 839 


  iteration 839; minNextMutationTime = 778; timeNextPopSample = 768; popParams.size() = 2

 We are SAMPLING at time 768



*** Looping through 5.2. Iter = 840 


  iteration 840; minNextMutationTime = 779; timeNextPopSample = 769; popParams.size() = 2

 We are SAMPLING at time 769



*** Looping through 5.2. Iter = 841 


  iteration 841; minNextMutationTime = 780; timeNextPopSample = 770; popParams.size() = 2

 We are SAMPLING at time 770



*** Looping through 5.2. Iter = 842 


  iteration 842; minNextMutationTime = 781; timeNextPopSample = 771; popParams.size() = 2

 We are SAMPLING at time 771



*** Looping through 5.2. Iter = 843 


  iteration 843; minNextMutationTime = 782; timeNextPopSample = 772; popParams.size() = 2

 We are SAMPLING at time 772



*** Looping through 5.2. Iter = 844 


  iteration 844; minNextMutationTime = 783; timeNextPopSample = 773; popParams.size() = 2

 We are SAMPLING at time 773



*** Looping through 5.2. Iter = 845 


  iteration 845; minNextMutationTime = 784; timeNextPopSample = 774; popParams.size() = 2

 We are SAMPLING at time 774



*** Looping through 5.2. Iter = 846 


  iteration 846; minNextMutationTime = 785; timeNextPopSample = 775; popParams.size() = 2

 We are SAMPLING at time 775



*** Looping through 5.2. Iter = 847 


  iteration 847; minNextMutationTime = 786; timeNextPopSample = 776; popParams.size() = 2

 We are SAMPLING at time 776



*** Looping through 5.2. Iter = 848 


  iteration 848; minNextMutationTime = 787; timeNextPopSample = 777; popParams.size() = 2

 We are SAMPLING at time 777



*** Looping through 5.2. Iter = 849 


  iteration 849; minNextMutationTime = 788; timeNextPopSample = 778; popParams.size() = 2

 We are SAMPLING at time 778



*** Looping through 5.2. Iter = 850 


  iteration 850; minNextMutationTime = 789; timeNextPopSample = 779; popParams.size() = 2

 We are SAMPLING at time 779



*** Looping through 5.2. Iter = 851 


  iteration 851; minNextMutationTime = 779.742; timeNextPopSample = 780; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 852 


  iteration 852; minNextMutationTime = 790; timeNextPopSample = 780; popParams.size() = 3

 We are SAMPLING at time 780



*** Looping through 5.2. Iter = 853 


  iteration 853; minNextMutationTime = 791; timeNextPopSample = 781; popParams.size() = 3

 We are SAMPLING at time 781



*** Looping through 5.2. Iter = 854 


  iteration 854; minNextMutationTime = 792; timeNextPopSample = 782; popParams.size() = 2

 We are SAMPLING at time 782



*** Looping through 5.2. Iter = 855 


  iteration 855; minNextMutationTime = 793; timeNextPopSample = 783; popParams.size() = 2

 We are SAMPLING at time 783



*** Looping through 5.2. Iter = 856 


  iteration 856; minNextMutationTime = 794; timeNextPopSample = 784; popParams.size() = 2

 We are SAMPLING at time 784



*** Looping through 5.2. Iter = 857 


  iteration 857; minNextMutationTime = 795; timeNextPopSample = 785; popParams.size() = 2

 We are SAMPLING at time 785



*** Looping through 5.2. Iter = 858 


  iteration 858; minNextMutationTime = 796; timeNextPopSample = 786; popParams.size() = 2

 We are SAMPLING at time 786



*** Looping through 5.2. Iter = 859 


  iteration 859; minNextMutationTime = 797; timeNextPopSample = 787; popParams.size() = 2

 We are SAMPLING at time 787



*** Looping through 5.2. Iter = 860 


  iteration 860; minNextMutationTime = 787.86; timeNextPopSample = 788; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 861 


  iteration 861; minNextMutationTime = 798; timeNextPopSample = 788; popParams.size() = 3

 We are SAMPLING at time 788



*** Looping through 5.2. Iter = 862 


  iteration 862; minNextMutationTime = 799; timeNextPopSample = 789; popParams.size() = 3

 We are SAMPLING at time 789



*** Looping through 5.2. Iter = 863 


  iteration 863; minNextMutationTime = 800; timeNextPopSample = 790; popParams.size() = 3

 We are SAMPLING at time 790



*** Looping through 5.2. Iter = 864 


  iteration 864; minNextMutationTime = 801; timeNextPopSample = 791; popParams.size() = 3

 We are SAMPLING at time 791



*** Looping through 5.2. Iter = 865 


  iteration 865; minNextMutationTime = 802; timeNextPopSample = 792; popParams.size() = 3

 We are SAMPLING at time 792



*** Looping through 5.2. Iter = 866 


  iteration 866; minNextMutationTime = 803; timeNextPopSample = 793; popParams.size() = 3

 We are SAMPLING at time 793



*** Looping through 5.2. Iter = 867 


  iteration 867; minNextMutationTime = 804; timeNextPopSample = 794; popParams.size() = 3

 We are SAMPLING at time 794



*** Looping through 5.2. Iter = 868 


  iteration 868; minNextMutationTime = 805; timeNextPopSample = 795; popParams.size() = 3

 We are SAMPLING at time 795



*** Looping through 5.2. Iter = 869 


  iteration 869; minNextMutationTime = 806; timeNextPopSample = 796; popParams.size() = 3

 We are SAMPLING at time 796



*** Looping through 5.2. Iter = 870 


  iteration 870; minNextMutationTime = 807; timeNextPopSample = 797; popParams.size() = 3

 We are SAMPLING at time 797



*** Looping through 5.2. Iter = 871 


  iteration 871; minNextMutationTime = 808; timeNextPopSample = 798; popParams.size() = 2

 We are SAMPLING at time 798



*** Looping through 5.2. Iter = 872 


  iteration 872; minNextMutationTime = 809; timeNextPopSample = 799; popParams.size() = 2

 We are SAMPLING at time 799



*** Looping through 5.2. Iter = 873 


  iteration 873; minNextMutationTime = 810; timeNextPopSample = 800; popParams.size() = 1

 We are SAMPLING at time 800



*** Looping through 5.2. Iter = 874 


  iteration 874; minNextMutationTime = 811; timeNextPopSample = 801; popParams.size() = 1

 We are SAMPLING at time 801



*** Looping through 5.2. Iter = 875 


  iteration 875; minNextMutationTime = 801.033; timeNextPopSample = 802; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 876 


  iteration 876; minNextMutationTime = 812; timeNextPopSample = 802; popParams.size() = 2

 We are SAMPLING at time 802



*** Looping through 5.2. Iter = 877 


  iteration 877; minNextMutationTime = 813; timeNextPopSample = 803; popParams.size() = 2

 We are SAMPLING at time 803



*** Looping through 5.2. Iter = 878 


  iteration 878; minNextMutationTime = 814; timeNextPopSample = 804; popParams.size() = 2

 We are SAMPLING at time 804



*** Looping through 5.2. Iter = 879 


  iteration 879; minNextMutationTime = 815; timeNextPopSample = 805; popParams.size() = 1

 We are SAMPLING at time 805



*** Looping through 5.2. Iter = 880 


  iteration 880; minNextMutationTime = 816; timeNextPopSample = 806; popParams.size() = 1

 We are SAMPLING at time 806



*** Looping through 5.2. Iter = 881 


  iteration 881; minNextMutationTime = 817; timeNextPopSample = 807; popParams.size() = 1

 We are SAMPLING at time 807



*** Looping through 5.2. Iter = 882 


  iteration 882; minNextMutationTime = 818; timeNextPopSample = 808; popParams.size() = 1

 We are SAMPLING at time 808



*** Looping through 5.2. Iter = 883 


  iteration 883; minNextMutationTime = 819; timeNextPopSample = 809; popParams.size() = 1

 We are SAMPLING at time 809



*** Looping through 5.2. Iter = 884 


  iteration 884; minNextMutationTime = 820; timeNextPopSample = 810; popParams.size() = 1

 We are SAMPLING at time 810



*** Looping through 5.2. Iter = 885 


  iteration 885; minNextMutationTime = 821; timeNextPopSample = 811; popParams.size() = 1

 We are SAMPLING at time 811



*** Looping through 5.2. Iter = 886 


  iteration 886; minNextMutationTime = 822; timeNextPopSample = 812; popParams.size() = 1

 We are SAMPLING at time 812



*** Looping through 5.2. Iter = 887 


  iteration 887; minNextMutationTime = 823; timeNextPopSample = 813; popParams.size() = 1

 We are SAMPLING at time 813



*** Looping through 5.2. Iter = 888 


  iteration 888; minNextMutationTime = 813.758; timeNextPopSample = 814; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 889 


  iteration 889; minNextMutationTime = 824; timeNextPopSample = 814; popParams.size() = 2

 We are SAMPLING at time 814



*** Looping through 5.2. Iter = 890 


  iteration 890; minNextMutationTime = 825; timeNextPopSample = 815; popParams.size() = 2

 We are SAMPLING at time 815



*** Looping through 5.2. Iter = 891 


  iteration 891; minNextMutationTime = 826; timeNextPopSample = 816; popParams.size() = 2

 We are SAMPLING at time 816



*** Looping through 5.2. Iter = 892 


  iteration 892; minNextMutationTime = 827; timeNextPopSample = 817; popParams.size() = 1

 We are SAMPLING at time 817



*** Looping through 5.2. Iter = 893 


  iteration 893; minNextMutationTime = 828; timeNextPopSample = 818; popParams.size() = 1

 We are SAMPLING at time 818



*** Looping through 5.2. Iter = 894 


  iteration 894; minNextMutationTime = 829; timeNextPopSample = 819; popParams.size() = 1

 We are SAMPLING at time 819



*** Looping through 5.2. Iter = 895 


  iteration 895; minNextMutationTime = 830; timeNextPopSample = 820; popParams.size() = 1

 We are SAMPLING at time 820



*** Looping through 5.2. Iter = 896 


  iteration 896; minNextMutationTime = 831; timeNextPopSample = 821; popParams.size() = 1

 We are SAMPLING at time 821



*** Looping through 5.2. Iter = 897 


  iteration 897; minNextMutationTime = 832; timeNextPopSample = 822; popParams.size() = 1

 We are SAMPLING at time 822



*** Looping through 5.2. Iter = 898 


  iteration 898; minNextMutationTime = 822.31; timeNextPopSample = 823; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 899 


  iteration 899; minNextMutationTime = 833; timeNextPopSample = 823; popParams.size() = 2

 We are SAMPLING at time 823



*** Looping through 5.2. Iter = 900 


  iteration 900; minNextMutationTime = 834; timeNextPopSample = 824; popParams.size() = 2

 We are SAMPLING at time 824



*** Looping through 5.2. Iter = 901 


  iteration 901; minNextMutationTime = 835; timeNextPopSample = 825; popParams.size() = 1

 We are SAMPLING at time 825



*** Looping through 5.2. Iter = 902 


  iteration 902; minNextMutationTime = 836; timeNextPopSample = 826; popParams.size() = 1

 We are SAMPLING at time 826



*** Looping through 5.2. Iter = 903 


  iteration 903; minNextMutationTime = 837; timeNextPopSample = 827; popParams.size() = 1

 We are SAMPLING at time 827



*** Looping through 5.2. Iter = 904 


  iteration 904; minNextMutationTime = 838; timeNextPopSample = 828; popParams.size() = 1

 We are SAMPLING at time 828



*** Looping through 5.2. Iter = 905 


  iteration 905; minNextMutationTime = 839; timeNextPopSample = 829; popParams.size() = 1

 We are SAMPLING at time 829



*** Looping through 5.2. Iter = 906 


  iteration 906; minNextMutationTime = 840; timeNextPopSample = 830; popParams.size() = 1

 We are SAMPLING at time 830



*** Looping through 5.2. Iter = 907 


  iteration 907; minNextMutationTime = 841; timeNextPopSample = 831; popParams.size() = 1

 We are SAMPLING at time 831



*** Looping through 5.2. Iter = 908 


  iteration 908; minNextMutationTime = 842; timeNextPopSample = 832; popParams.size() = 1

 We are SAMPLING at time 832



*** Looping through 5.2. Iter = 909 


  iteration 909; minNextMutationTime = 843; timeNextPopSample = 833; popParams.size() = 1

 We are SAMPLING at time 833



*** Looping through 5.2. Iter = 910 


  iteration 910; minNextMutationTime = 844; timeNextPopSample = 834; popParams.size() = 1

 We are SAMPLING at time 834



*** Looping through 5.2. Iter = 911 


  iteration 911; minNextMutationTime = 834.396; timeNextPopSample = 835; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 912 


  iteration 912; minNextMutationTime = 845; timeNextPopSample = 835; popParams.size() = 2

 We are SAMPLING at time 835



*** Looping through 5.2. Iter = 913 


  iteration 913; minNextMutationTime = 846; timeNextPopSample = 836; popParams.size() = 2

 We are SAMPLING at time 836



*** Looping through 5.2. Iter = 914 


  iteration 914; minNextMutationTime = 847; timeNextPopSample = 837; popParams.size() = 1

 We are SAMPLING at time 837



*** Looping through 5.2. Iter = 915 


  iteration 915; minNextMutationTime = 848; timeNextPopSample = 838; popParams.size() = 1

 We are SAMPLING at time 838



*** Looping through 5.2. Iter = 916 


  iteration 916; minNextMutationTime = 849; timeNextPopSample = 839; popParams.size() = 1

 We are SAMPLING at time 839



*** Looping through 5.2. Iter = 917 


  iteration 917; minNextMutationTime = 850; timeNextPopSample = 840; popParams.size() = 1

 We are SAMPLING at time 840



*** Looping through 5.2. Iter = 918 


  iteration 918; minNextMutationTime = 851; timeNextPopSample = 841; popParams.size() = 1

 We are SAMPLING at time 841



*** Looping through 5.2. Iter = 919 


  iteration 919; minNextMutationTime = 852; timeNextPopSample = 842; popParams.size() = 1

 We are SAMPLING at time 842



*** Looping through 5.2. Iter = 920 


  iteration 920; minNextMutationTime = 853; timeNextPopSample = 843; popParams.size() = 1

 We are SAMPLING at time 843



*** Looping through 5.2. Iter = 921 


  iteration 921; minNextMutationTime = 854; timeNextPopSample = 844; popParams.size() = 1

 We are SAMPLING at time 844



*** Looping through 5.2. Iter = 922 


  iteration 922; minNextMutationTime = 855; timeNextPopSample = 845; popParams.size() = 1

 We are SAMPLING at time 845



*** Looping through 5.2. Iter = 923 


  iteration 923; minNextMutationTime = 856; timeNextPopSample = 846; popParams.size() = 1

 We are SAMPLING at time 846



*** Looping through 5.2. Iter = 924 


  iteration 924; minNextMutationTime = 857; timeNextPopSample = 847; popParams.size() = 1

 We are SAMPLING at time 847



*** Looping through 5.2. Iter = 925 


  iteration 925; minNextMutationTime = 858; timeNextPopSample = 848; popParams.size() = 1

 We are SAMPLING at time 848



*** Looping through 5.2. Iter = 926 


  iteration 926; minNextMutationTime = 859; timeNextPopSample = 849; popParams.size() = 1

 We are SAMPLING at time 849



*** Looping through 5.2. Iter = 927 


  iteration 927; minNextMutationTime = 860; timeNextPopSample = 850; popParams.size() = 1

 We are SAMPLING at time 850



*** Looping through 5.2. Iter = 928 


  iteration 928; minNextMutationTime = 861; timeNextPopSample = 851; popParams.size() = 1

 We are SAMPLING at time 851



*** Looping through 5.2. Iter = 929 


  iteration 929; minNextMutationTime = 862; timeNextPopSample = 852; popParams.size() = 1

 We are SAMPLING at time 852



*** Looping through 5.2. Iter = 930 


  iteration 930; minNextMutationTime = 863; timeNextPopSample = 853; popParams.size() = 1

 We are SAMPLING at time 853



*** Looping through 5.2. Iter = 931 


  iteration 931; minNextMutationTime = 864; timeNextPopSample = 854; popParams.size() = 1

 We are SAMPLING at time 854



*** Looping through 5.2. Iter = 932 


  iteration 932; minNextMutationTime = 865; timeNextPopSample = 855; popParams.size() = 1

 We are SAMPLING at time 855



*** Looping through 5.2. Iter = 933 


  iteration 933; minNextMutationTime = 866; timeNextPopSample = 856; popParams.size() = 1

 We are SAMPLING at time 856



*** Looping through 5.2. Iter = 934 


  iteration 934; minNextMutationTime = 867; timeNextPopSample = 857; popParams.size() = 1

 We are SAMPLING at time 857



*** Looping through 5.2. Iter = 935 


  iteration 935; minNextMutationTime = 868; timeNextPopSample = 858; popParams.size() = 1

 We are SAMPLING at time 858



*** Looping through 5.2. Iter = 936 


  iteration 936; minNextMutationTime = 869; timeNextPopSample = 859; popParams.size() = 1

 We are SAMPLING at time 859



*** Looping through 5.2. Iter = 937 


  iteration 937; minNextMutationTime = 870; timeNextPopSample = 860; popParams.size() = 1

 We are SAMPLING at time 860



*** Looping through 5.2. Iter = 938 


  iteration 938; minNextMutationTime = 871; timeNextPopSample = 861; popParams.size() = 1

 We are SAMPLING at time 861



*** Looping through 5.2. Iter = 939 


  iteration 939; minNextMutationTime = 861.086; timeNextPopSample = 862; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 940 


  iteration 940; minNextMutationTime = 872; timeNextPopSample = 862; popParams.size() = 2

 We are SAMPLING at time 862



*** Looping through 5.2. Iter = 941 


  iteration 941; minNextMutationTime = 873; timeNextPopSample = 863; popParams.size() = 2

 We are SAMPLING at time 863



*** Looping through 5.2. Iter = 942 


  iteration 942; minNextMutationTime = 874; timeNextPopSample = 864; popParams.size() = 1

 We are SAMPLING at time 864



*** Looping through 5.2. Iter = 943 


  iteration 943; minNextMutationTime = 875; timeNextPopSample = 865; popParams.size() = 1

 We are SAMPLING at time 865



*** Looping through 5.2. Iter = 944 


  iteration 944; minNextMutationTime = 876; timeNextPopSample = 866; popParams.size() = 1

 We are SAMPLING at time 866



*** Looping through 5.2. Iter = 945 


  iteration 945; minNextMutationTime = 877; timeNextPopSample = 867; popParams.size() = 1

 We are SAMPLING at time 867



*** Looping through 5.2. Iter = 946 


  iteration 946; minNextMutationTime = 867.905; timeNextPopSample = 868; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 947 


  iteration 947; minNextMutationTime = 878; timeNextPopSample = 868; popParams.size() = 2

 We are SAMPLING at time 868



*** Looping through 5.2. Iter = 948 


  iteration 948; minNextMutationTime = 879; timeNextPopSample = 869; popParams.size() = 2

 We are SAMPLING at time 869



*** Looping through 5.2. Iter = 949 


  iteration 949; minNextMutationTime = 869.039; timeNextPopSample = 870; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 950 


  iteration 950; minNextMutationTime = 869.861; timeNextPopSample = 870; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 951 


  iteration 951; minNextMutationTime = 880; timeNextPopSample = 870; popParams.size() = 3

 We are SAMPLING at time 870



*** Looping through 5.2. Iter = 952 


  iteration 952; minNextMutationTime = 881; timeNextPopSample = 871; popParams.size() = 3

 We are SAMPLING at time 871



*** Looping through 5.2. Iter = 953 


  iteration 953; minNextMutationTime = 882; timeNextPopSample = 872; popParams.size() = 3

 We are SAMPLING at time 872



*** Looping through 5.2. Iter = 954 


  iteration 954; minNextMutationTime = 883; timeNextPopSample = 873; popParams.size() = 3

 We are SAMPLING at time 873



*** Looping through 5.2. Iter = 955 


  iteration 955; minNextMutationTime = 873.131; timeNextPopSample = 874; popParams.size() = 3

     Mutated to existing species 1 (Genotype = 0000000000000000000000000000000000000000000000000000000000000010; sp_id = 2)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 2)
 New popSize = 10



*** Looping through 5.2. Iter = 956 


  iteration 956; minNextMutationTime = 884; timeNextPopSample = 874; popParams.size() = 3

 We are SAMPLING at time 874



*** Looping through 5.2. Iter = 957 


  iteration 957; minNextMutationTime = 885; timeNextPopSample = 875; popParams.size() = 3

 We are SAMPLING at time 875



*** Looping through 5.2. Iter = 958 


  iteration 958; minNextMutationTime = 886; timeNextPopSample = 876; popParams.size() = 3

 We are SAMPLING at time 876



*** Looping through 5.2. Iter = 959 


  iteration 959; minNextMutationTime = 887; timeNextPopSample = 877; popParams.size() = 2

 We are SAMPLING at time 877



*** Looping through 5.2. Iter = 960 


  iteration 960; minNextMutationTime = 888; timeNextPopSample = 878; popParams.size() = 2

 We are SAMPLING at time 878



*** Looping through 5.2. Iter = 961 


  iteration 961; minNextMutationTime = 889; timeNextPopSample = 879; popParams.size() = 2

 We are SAMPLING at time 879



*** Looping through 5.2. Iter = 962 


  iteration 962; minNextMutationTime = 890; timeNextPopSample = 880; popParams.size() = 2

 We are SAMPLING at time 880



*** Looping through 5.2. Iter = 963 


  iteration 963; minNextMutationTime = 891; timeNextPopSample = 881; popParams.size() = 2

 We are SAMPLING at time 881



*** Looping through 5.2. Iter = 964 


  iteration 964; minNextMutationTime = 892; timeNextPopSample = 882; popParams.size() = 2

 We are SAMPLING at time 882



*** Looping through 5.2. Iter = 965 


  iteration 965; minNextMutationTime = 893; timeNextPopSample = 883; popParams.size() = 2

 We are SAMPLING at time 883



*** Looping through 5.2. Iter = 966 


  iteration 966; minNextMutationTime = 894; timeNextPopSample = 884; popParams.size() = 2

 We are SAMPLING at time 884



*** Looping through 5.2. Iter = 967 


  iteration 967; minNextMutationTime = 895; timeNextPopSample = 885; popParams.size() = 1

 We are SAMPLING at time 885



*** Looping through 5.2. Iter = 968 


  iteration 968; minNextMutationTime = 896; timeNextPopSample = 886; popParams.size() = 1

 We are SAMPLING at time 886



*** Looping through 5.2. Iter = 969 


  iteration 969; minNextMutationTime = 886.704; timeNextPopSample = 887; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 970 


  iteration 970; minNextMutationTime = 897; timeNextPopSample = 887; popParams.size() = 2

 We are SAMPLING at time 887



*** Looping through 5.2. Iter = 971 


  iteration 971; minNextMutationTime = 898; timeNextPopSample = 888; popParams.size() = 2

 We are SAMPLING at time 888



*** Looping through 5.2. Iter = 972 


  iteration 972; minNextMutationTime = 899; timeNextPopSample = 889; popParams.size() = 2

 We are SAMPLING at time 889



*** Looping through 5.2. Iter = 973 


  iteration 973; minNextMutationTime = 900; timeNextPopSample = 890; popParams.size() = 2

 We are SAMPLING at time 890



*** Looping through 5.2. Iter = 974 


  iteration 974; minNextMutationTime = 901; timeNextPopSample = 891; popParams.size() = 2

 We are SAMPLING at time 891



*** Looping through 5.2. Iter = 975 


  iteration 975; minNextMutationTime = 902; timeNextPopSample = 892; popParams.size() = 1

 We are SAMPLING at time 892



*** Looping through 5.2. Iter = 976 


  iteration 976; minNextMutationTime = 903; timeNextPopSample = 893; popParams.size() = 1

 We are SAMPLING at time 893



*** Looping through 5.2. Iter = 977 


  iteration 977; minNextMutationTime = 893.289; timeNextPopSample = 894; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 978 


  iteration 978; minNextMutationTime = 904; timeNextPopSample = 894; popParams.size() = 2

 We are SAMPLING at time 894



*** Looping through 5.2. Iter = 979 


  iteration 979; minNextMutationTime = 905; timeNextPopSample = 895; popParams.size() = 2

 We are SAMPLING at time 895



*** Looping through 5.2. Iter = 980 


  iteration 980; minNextMutationTime = 906; timeNextPopSample = 896; popParams.size() = 1

 We are SAMPLING at time 896



*** Looping through 5.2. Iter = 981 


  iteration 981; minNextMutationTime = 907; timeNextPopSample = 897; popParams.size() = 1

 We are SAMPLING at time 897



*** Looping through 5.2. Iter = 982 


  iteration 982; minNextMutationTime = 908; timeNextPopSample = 898; popParams.size() = 1

 We are SAMPLING at time 898



*** Looping through 5.2. Iter = 983 


  iteration 983; minNextMutationTime = 909; timeNextPopSample = 899; popParams.size() = 1

 We are SAMPLING at time 899



*** Looping through 5.2. Iter = 984 


  iteration 984; minNextMutationTime = 899.022; timeNextPopSample = 900; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 985 


  iteration 985; minNextMutationTime = 910; timeNextPopSample = 900; popParams.size() = 2

 We are SAMPLING at time 900



*** Looping through 5.2. Iter = 986 


  iteration 986; minNextMutationTime = 911; timeNextPopSample = 901; popParams.size() = 2

 We are SAMPLING at time 901



*** Looping through 5.2. Iter = 987 


  iteration 987; minNextMutationTime = 912; timeNextPopSample = 902; popParams.size() = 2

 We are SAMPLING at time 902



*** Looping through 5.2. Iter = 988 


  iteration 988; minNextMutationTime = 913; timeNextPopSample = 903; popParams.size() = 2

 We are SAMPLING at time 903



*** Looping through 5.2. Iter = 989 


  iteration 989; minNextMutationTime = 914; timeNextPopSample = 904; popParams.size() = 2

 We are SAMPLING at time 904



*** Looping through 5.2. Iter = 990 


  iteration 990; minNextMutationTime = 904.131; timeNextPopSample = 905; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 991 


  iteration 991; minNextMutationTime = 915; timeNextPopSample = 905; popParams.size() = 3

 We are SAMPLING at time 905



*** Looping through 5.2. Iter = 992 


  iteration 992; minNextMutationTime = 905.884; timeNextPopSample = 906; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 993 


  iteration 993; minNextMutationTime = 916; timeNextPopSample = 906; popParams.size() = 3

 We are SAMPLING at time 906



*** Looping through 5.2. Iter = 994 


  iteration 994; minNextMutationTime = 906.893; timeNextPopSample = 907; popParams.size() = 3

     Creating new species   3         from species 0


*** Looping through 5.2. Iter = 995 


  iteration 995; minNextMutationTime = 917; timeNextPopSample = 907; popParams.size() = 4

 We are SAMPLING at time 907



*** Looping through 5.2. Iter = 996 


  iteration 996; minNextMutationTime = 918; timeNextPopSample = 908; popParams.size() = 3

 We are SAMPLING at time 908



*** Looping through 5.2. Iter = 997 


  iteration 997; minNextMutationTime = 919; timeNextPopSample = 909; popParams.size() = 2

 We are SAMPLING at time 909



*** Looping through 5.2. Iter = 998 


  iteration 998; minNextMutationTime = 920; timeNextPopSample = 910; popParams.size() = 2

 We are SAMPLING at time 910



*** Looping through 5.2. Iter = 999 


  iteration 999; minNextMutationTime = 921; timeNextPopSample = 911; popParams.size() = 2

 We are SAMPLING at time 911


    ... iteration 1000
    ... currentTime 911



*** Looping through 5.2. Iter = 1000 


  iteration 1000; minNextMutationTime = 911.969; timeNextPopSample = 912; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1001 


  iteration 1001; minNextMutationTime = 922; timeNextPopSample = 912; popParams.size() = 3

 We are SAMPLING at time 912



*** Looping through 5.2. Iter = 1002 


  iteration 1002; minNextMutationTime = 923; timeNextPopSample = 913; popParams.size() = 3

 We are SAMPLING at time 913



*** Looping through 5.2. Iter = 1003 


  iteration 1003; minNextMutationTime = 924; timeNextPopSample = 914; popParams.size() = 2

 We are SAMPLING at time 914



*** Looping through 5.2. Iter = 1004 


  iteration 1004; minNextMutationTime = 925; timeNextPopSample = 915; popParams.size() = 2

 We are SAMPLING at time 915



*** Looping through 5.2. Iter = 1005 


  iteration 1005; minNextMutationTime = 926; timeNextPopSample = 916; popParams.size() = 2

 We are SAMPLING at time 916



*** Looping through 5.2. Iter = 1006 


  iteration 1006; minNextMutationTime = 927; timeNextPopSample = 917; popParams.size() = 2

 We are SAMPLING at time 917



*** Looping through 5.2. Iter = 1007 


  iteration 1007; minNextMutationTime = 928; timeNextPopSample = 918; popParams.size() = 2

 We are SAMPLING at time 918



*** Looping through 5.2. Iter = 1008 


  iteration 1008; minNextMutationTime = 929; timeNextPopSample = 919; popParams.size() = 2

 We are SAMPLING at time 919



*** Looping through 5.2. Iter = 1009 


  iteration 1009; minNextMutationTime = 930; timeNextPopSample = 920; popParams.size() = 2

 We are SAMPLING at time 920



*** Looping through 5.2. Iter = 1010 


  iteration 1010; minNextMutationTime = 931; timeNextPopSample = 921; popParams.size() = 2

 We are SAMPLING at time 921



*** Looping through 5.2. Iter = 1011 


  iteration 1011; minNextMutationTime = 921.067; timeNextPopSample = 922; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1012 


  iteration 1012; minNextMutationTime = 932; timeNextPopSample = 922; popParams.size() = 3

 We are SAMPLING at time 922



*** Looping through 5.2. Iter = 1013 


  iteration 1013; minNextMutationTime = 933; timeNextPopSample = 923; popParams.size() = 3

 We are SAMPLING at time 923



*** Looping through 5.2. Iter = 1014 


  iteration 1014; minNextMutationTime = 934; timeNextPopSample = 924; popParams.size() = 3

 We are SAMPLING at time 924



*** Looping through 5.2. Iter = 1015 


  iteration 1015; minNextMutationTime = 935; timeNextPopSample = 925; popParams.size() = 2

 We are SAMPLING at time 925



*** Looping through 5.2. Iter = 1016 


  iteration 1016; minNextMutationTime = 925.089; timeNextPopSample = 926; popParams.size() = 2

     Mutated to existing species 1 (Genotype = 0000000000000000000000000000000000000000000000000000000000001000; sp_id = 8)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 8)
 New popSize = 21



*** Looping through 5.2. Iter = 1017 


  iteration 1017; minNextMutationTime = 936; timeNextPopSample = 926; popParams.size() = 2

 We are SAMPLING at time 926



*** Looping through 5.2. Iter = 1018 


  iteration 1018; minNextMutationTime = 937; timeNextPopSample = 927; popParams.size() = 2

 We are SAMPLING at time 927



*** Looping through 5.2. Iter = 1019 


  iteration 1019; minNextMutationTime = 938; timeNextPopSample = 928; popParams.size() = 2

 We are SAMPLING at time 928



*** Looping through 5.2. Iter = 1020 


  iteration 1020; minNextMutationTime = 939; timeNextPopSample = 929; popParams.size() = 2

 We are SAMPLING at time 929



*** Looping through 5.2. Iter = 1021 


  iteration 1021; minNextMutationTime = 940; timeNextPopSample = 930; popParams.size() = 2

 We are SAMPLING at time 930



*** Looping through 5.2. Iter = 1022 


  iteration 1022; minNextMutationTime = 941; timeNextPopSample = 931; popParams.size() = 2

 We are SAMPLING at time 931



*** Looping through 5.2. Iter = 1023 


  iteration 1023; minNextMutationTime = 942; timeNextPopSample = 932; popParams.size() = 2

 We are SAMPLING at time 932



*** Looping through 5.2. Iter = 1024 


  iteration 1024; minNextMutationTime = 943; timeNextPopSample = 933; popParams.size() = 2

 We are SAMPLING at time 933



*** Looping through 5.2. Iter = 1025 


  iteration 1025; minNextMutationTime = 933.896; timeNextPopSample = 934; popParams.size() = 2

     Mutated to existing species 1 (Genotype = 0000000000000000000000000000000000000000000000000000000000001000; sp_id = 8)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 8)
 New popSize = 80



*** Looping through 5.2. Iter = 1026 


  iteration 1026; minNextMutationTime = 944; timeNextPopSample = 934; popParams.size() = 2

 We are SAMPLING at time 934



*** Looping through 5.2. Iter = 1027 


  iteration 1027; minNextMutationTime = 945; timeNextPopSample = 935; popParams.size() = 2

 We are SAMPLING at time 935



*** Looping through 5.2. Iter = 1028 


  iteration 1028; minNextMutationTime = 946; timeNextPopSample = 936; popParams.size() = 2

 We are SAMPLING at time 936



*** Looping through 5.2. Iter = 1029 


  iteration 1029; minNextMutationTime = 947; timeNextPopSample = 937; popParams.size() = 2

 We are SAMPLING at time 937



*** Looping through 5.2. Iter = 1030 


  iteration 1030; minNextMutationTime = 948; timeNextPopSample = 938; popParams.size() = 2

 We are SAMPLING at time 938



*** Looping through 5.2. Iter = 1031 


  iteration 1031; minNextMutationTime = 949; timeNextPopSample = 939; popParams.size() = 2

 We are SAMPLING at time 939



*** Looping through 5.2. Iter = 1032 


  iteration 1032; minNextMutationTime = 950; timeNextPopSample = 940; popParams.size() = 2

 We are SAMPLING at time 940



*** Looping through 5.2. Iter = 1033 


  iteration 1033; minNextMutationTime = 951; timeNextPopSample = 941; popParams.size() = 2

 We are SAMPLING at time 941



*** Looping through 5.2. Iter = 1034 


  iteration 1034; minNextMutationTime = 952; timeNextPopSample = 942; popParams.size() = 2

 We are SAMPLING at time 942



*** Looping through 5.2. Iter = 1035 


  iteration 1035; minNextMutationTime = 953; timeNextPopSample = 943; popParams.size() = 2

 We are SAMPLING at time 943



*** Looping through 5.2. Iter = 1036 


  iteration 1036; minNextMutationTime = 954; timeNextPopSample = 944; popParams.size() = 2

 We are SAMPLING at time 944



*** Looping through 5.2. Iter = 1037 


  iteration 1037; minNextMutationTime = 955; timeNextPopSample = 945; popParams.size() = 2

 We are SAMPLING at time 945



*** Looping through 5.2. Iter = 1038 


  iteration 1038; minNextMutationTime = 956; timeNextPopSample = 946; popParams.size() = 2

 We are SAMPLING at time 946



*** Looping through 5.2. Iter = 1039 


  iteration 1039; minNextMutationTime = 957; timeNextPopSample = 947; popParams.size() = 2

 We are SAMPLING at time 947



*** Looping through 5.2. Iter = 1040 


  iteration 1040; minNextMutationTime = 958; timeNextPopSample = 948; popParams.size() = 2

 We are SAMPLING at time 948



*** Looping through 5.2. Iter = 1041 


  iteration 1041; minNextMutationTime = 959; timeNextPopSample = 949; popParams.size() = 2

 We are SAMPLING at time 949



*** Looping through 5.2. Iter = 1042 


  iteration 1042; minNextMutationTime = 960; timeNextPopSample = 950; popParams.size() = 2

 We are SAMPLING at time 950



*** Looping through 5.2. Iter = 1043 


  iteration 1043; minNextMutationTime = 961; timeNextPopSample = 951; popParams.size() = 2

 We are SAMPLING at time 951



*** Looping through 5.2. Iter = 1044 


  iteration 1044; minNextMutationTime = 962; timeNextPopSample = 952; popParams.size() = 2

 We are SAMPLING at time 952



*** Looping through 5.2. Iter = 1045 


  iteration 1045; minNextMutationTime = 952.302; timeNextPopSample = 953; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1046 


  iteration 1046; minNextMutationTime = 963; timeNextPopSample = 953; popParams.size() = 3

 We are SAMPLING at time 953



*** Looping through 5.2. Iter = 1047 


  iteration 1047; minNextMutationTime = 964; timeNextPopSample = 954; popParams.size() = 3

 We are SAMPLING at time 954



*** Looping through 5.2. Iter = 1048 


  iteration 1048; minNextMutationTime = 965; timeNextPopSample = 955; popParams.size() = 3

 We are SAMPLING at time 955



*** Looping through 5.2. Iter = 1049 


  iteration 1049; minNextMutationTime = 966; timeNextPopSample = 956; popParams.size() = 3

 We are SAMPLING at time 956



*** Looping through 5.2. Iter = 1050 


  iteration 1050; minNextMutationTime = 967; timeNextPopSample = 957; popParams.size() = 3

 We are SAMPLING at time 957



*** Looping through 5.2. Iter = 1051 


  iteration 1051; minNextMutationTime = 968; timeNextPopSample = 958; popParams.size() = 2

 We are SAMPLING at time 958



*** Looping through 5.2. Iter = 1052 


  iteration 1052; minNextMutationTime = 969; timeNextPopSample = 959; popParams.size() = 2

 We are SAMPLING at time 959



*** Looping through 5.2. Iter = 1053 


  iteration 1053; minNextMutationTime = 970; timeNextPopSample = 960; popParams.size() = 2

 We are SAMPLING at time 960



*** Looping through 5.2. Iter = 1054 


  iteration 1054; minNextMutationTime = 971; timeNextPopSample = 961; popParams.size() = 2

 We are SAMPLING at time 961



*** Looping through 5.2. Iter = 1055 


  iteration 1055; minNextMutationTime = 972; timeNextPopSample = 962; popParams.size() = 2

 We are SAMPLING at time 962



*** Looping through 5.2. Iter = 1056 


  iteration 1056; minNextMutationTime = 973; timeNextPopSample = 963; popParams.size() = 2

 We are SAMPLING at time 963



*** Looping through 5.2. Iter = 1057 


  iteration 1057; minNextMutationTime = 974; timeNextPopSample = 964; popParams.size() = 2

 We are SAMPLING at time 964



*** Looping through 5.2. Iter = 1058 


  iteration 1058; minNextMutationTime = 975; timeNextPopSample = 965; popParams.size() = 2

 We are SAMPLING at time 965



*** Looping through 5.2. Iter = 1059 


  iteration 1059; minNextMutationTime = 976; timeNextPopSample = 966; popParams.size() = 2

 We are SAMPLING at time 966



*** Looping through 5.2. Iter = 1060 


  iteration 1060; minNextMutationTime = 977; timeNextPopSample = 967; popParams.size() = 2

 We are SAMPLING at time 967



*** Looping through 5.2. Iter = 1061 


  iteration 1061; minNextMutationTime = 978; timeNextPopSample = 968; popParams.size() = 2

 We are SAMPLING at time 968



*** Looping through 5.2. Iter = 1062 


  iteration 1062; minNextMutationTime = 979; timeNextPopSample = 969; popParams.size() = 2

 We are SAMPLING at time 969



*** Looping through 5.2. Iter = 1063 


  iteration 1063; minNextMutationTime = 980; timeNextPopSample = 970; popParams.size() = 2

 We are SAMPLING at time 970



*** Looping through 5.2. Iter = 1064 


  iteration 1064; minNextMutationTime = 981; timeNextPopSample = 971; popParams.size() = 2

 We are SAMPLING at time 971



*** Looping through 5.2. Iter = 1065 


  iteration 1065; minNextMutationTime = 982; timeNextPopSample = 972; popParams.size() = 2

 We are SAMPLING at time 972



*** Looping through 5.2. Iter = 1066 


  iteration 1066; minNextMutationTime = 983; timeNextPopSample = 973; popParams.size() = 2

 We are SAMPLING at time 973



*** Looping through 5.2. Iter = 1067 


  iteration 1067; minNextMutationTime = 984; timeNextPopSample = 974; popParams.size() = 2

 We are SAMPLING at time 974



*** Looping through 5.2. Iter = 1068 


  iteration 1068; minNextMutationTime = 985; timeNextPopSample = 975; popParams.size() = 2

 We are SAMPLING at time 975



*** Looping through 5.2. Iter = 1069 


  iteration 1069; minNextMutationTime = 975.024; timeNextPopSample = 976; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1070 


  iteration 1070; minNextMutationTime = 986; timeNextPopSample = 976; popParams.size() = 3

 We are SAMPLING at time 976



*** Looping through 5.2. Iter = 1071 


  iteration 1071; minNextMutationTime = 987; timeNextPopSample = 977; popParams.size() = 2

 We are SAMPLING at time 977



*** Looping through 5.2. Iter = 1072 


  iteration 1072; minNextMutationTime = 988; timeNextPopSample = 978; popParams.size() = 2

 We are SAMPLING at time 978



*** Looping through 5.2. Iter = 1073 


  iteration 1073; minNextMutationTime = 989; timeNextPopSample = 979; popParams.size() = 2

 We are SAMPLING at time 979



*** Looping through 5.2. Iter = 1074 


  iteration 1074; minNextMutationTime = 990; timeNextPopSample = 980; popParams.size() = 2

 We are SAMPLING at time 980



*** Looping through 5.2. Iter = 1075 


  iteration 1075; minNextMutationTime = 991; timeNextPopSample = 981; popParams.size() = 2

 We are SAMPLING at time 981



*** Looping through 5.2. Iter = 1076 


  iteration 1076; minNextMutationTime = 992; timeNextPopSample = 982; popParams.size() = 2

 We are SAMPLING at time 982



*** Looping through 5.2. Iter = 1077 


  iteration 1077; minNextMutationTime = 993; timeNextPopSample = 983; popParams.size() = 2

 We are SAMPLING at time 983



*** Looping through 5.2. Iter = 1078 


  iteration 1078; minNextMutationTime = 994; timeNextPopSample = 984; popParams.size() = 1

 We are SAMPLING at time 984



*** Looping through 5.2. Iter = 1079 


  iteration 1079; minNextMutationTime = 984.996; timeNextPopSample = 985; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1080 


  iteration 1080; minNextMutationTime = 995; timeNextPopSample = 985; popParams.size() = 2

 We are SAMPLING at time 985



*** Looping through 5.2. Iter = 1081 


  iteration 1081; minNextMutationTime = 996; timeNextPopSample = 986; popParams.size() = 2

 We are SAMPLING at time 986



*** Looping through 5.2. Iter = 1082 


  iteration 1082; minNextMutationTime = 997; timeNextPopSample = 987; popParams.size() = 2

 We are SAMPLING at time 987



*** Looping through 5.2. Iter = 1083 


  iteration 1083; minNextMutationTime = 998; timeNextPopSample = 988; popParams.size() = 2

 We are SAMPLING at time 988



*** Looping through 5.2. Iter = 1084 


  iteration 1084; minNextMutationTime = 999; timeNextPopSample = 989; popParams.size() = 2

 We are SAMPLING at time 989



*** Looping through 5.2. Iter = 1085 


  iteration 1085; minNextMutationTime = 1000; timeNextPopSample = 990; popParams.size() = 1

 We are SAMPLING at time 990



*** Looping through 5.2. Iter = 1086 


  iteration 1086; minNextMutationTime = 1001; timeNextPopSample = 991; popParams.size() = 1

 We are SAMPLING at time 991



*** Looping through 5.2. Iter = 1087 


  iteration 1087; minNextMutationTime = 1002; timeNextPopSample = 992; popParams.size() = 1

 We are SAMPLING at time 992



*** Looping through 5.2. Iter = 1088 


  iteration 1088; minNextMutationTime = 1003; timeNextPopSample = 993; popParams.size() = 1

 We are SAMPLING at time 993



*** Looping through 5.2. Iter = 1089 


  iteration 1089; minNextMutationTime = 1004; timeNextPopSample = 994; popParams.size() = 1

 We are SAMPLING at time 994



*** Looping through 5.2. Iter = 1090 


  iteration 1090; minNextMutationTime = 1005; timeNextPopSample = 995; popParams.size() = 1

 We are SAMPLING at time 995



*** Looping through 5.2. Iter = 1091 


  iteration 1091; minNextMutationTime = 1006; timeNextPopSample = 996; popParams.size() = 1

 We are SAMPLING at time 996



*** Looping through 5.2. Iter = 1092 


  iteration 1092; minNextMutationTime = 1007; timeNextPopSample = 997; popParams.size() = 1

 We are SAMPLING at time 997



*** Looping through 5.2. Iter = 1093 


  iteration 1093; minNextMutationTime = 1008; timeNextPopSample = 998; popParams.size() = 1

 We are SAMPLING at time 998



*** Looping through 5.2. Iter = 1094 


  iteration 1094; minNextMutationTime = 1009; timeNextPopSample = 999; popParams.size() = 1

 We are SAMPLING at time 999



*** Looping through 5.2. Iter = 1095 


  iteration 1095; minNextMutationTime = 1010; timeNextPopSample = 1000; popParams.size() = 1

 We are SAMPLING at time 1000



*** Looping through 5.2. Iter = 1096 


  iteration 1096; minNextMutationTime = 1011; timeNextPopSample = 1001; popParams.size() = 1

 We are SAMPLING at time 1001



*** Looping through 5.2. Iter = 1097 


  iteration 1097; minNextMutationTime = 1012; timeNextPopSample = 1002; popParams.size() = 1

 We are SAMPLING at time 1002



*** Looping through 5.2. Iter = 1098 


  iteration 1098; minNextMutationTime = 1013; timeNextPopSample = 1003; popParams.size() = 1

 We are SAMPLING at time 1003



*** Looping through 5.2. Iter = 1099 


  iteration 1099; minNextMutationTime = 1014; timeNextPopSample = 1004; popParams.size() = 1

 We are SAMPLING at time 1004



*** Looping through 5.2. Iter = 1100 


  iteration 1100; minNextMutationTime = 1015; timeNextPopSample = 1005; popParams.size() = 1

 We are SAMPLING at time 1005



*** Looping through 5.2. Iter = 1101 


  iteration 1101; minNextMutationTime = 1016; timeNextPopSample = 1006; popParams.size() = 1

 We are SAMPLING at time 1006



*** Looping through 5.2. Iter = 1102 


  iteration 1102; minNextMutationTime = 1017; timeNextPopSample = 1007; popParams.size() = 1

 We are SAMPLING at time 1007



*** Looping through 5.2. Iter = 1103 


  iteration 1103; minNextMutationTime = 1018; timeNextPopSample = 1008; popParams.size() = 1

 We are SAMPLING at time 1008



*** Looping through 5.2. Iter = 1104 


  iteration 1104; minNextMutationTime = 1019; timeNextPopSample = 1009; popParams.size() = 1

 We are SAMPLING at time 1009



*** Looping through 5.2. Iter = 1105 


  iteration 1105; minNextMutationTime = 1009.43; timeNextPopSample = 1010; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1106 


  iteration 1106; minNextMutationTime = 1020; timeNextPopSample = 1010; popParams.size() = 2

 We are SAMPLING at time 1010



*** Looping through 5.2. Iter = 1107 


  iteration 1107; minNextMutationTime = 1021; timeNextPopSample = 1011; popParams.size() = 1

 We are SAMPLING at time 1011



*** Looping through 5.2. Iter = 1108 


  iteration 1108; minNextMutationTime = 1022; timeNextPopSample = 1012; popParams.size() = 1

 We are SAMPLING at time 1012



*** Looping through 5.2. Iter = 1109 


  iteration 1109; minNextMutationTime = 1023; timeNextPopSample = 1013; popParams.size() = 1

 We are SAMPLING at time 1013



*** Looping through 5.2. Iter = 1110 


  iteration 1110; minNextMutationTime = 1024; timeNextPopSample = 1014; popParams.size() = 1

 We are SAMPLING at time 1014



*** Looping through 5.2. Iter = 1111 


  iteration 1111; minNextMutationTime = 1025; timeNextPopSample = 1015; popParams.size() = 1

 We are SAMPLING at time 1015



*** Looping through 5.2. Iter = 1112 


  iteration 1112; minNextMutationTime = 1015.35; timeNextPopSample = 1016; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1113 


  iteration 1113; minNextMutationTime = 1026; timeNextPopSample = 1016; popParams.size() = 2

 We are SAMPLING at time 1016



*** Looping through 5.2. Iter = 1114 


  iteration 1114; minNextMutationTime = 1027; timeNextPopSample = 1017; popParams.size() = 2

 We are SAMPLING at time 1017



*** Looping through 5.2. Iter = 1115 


  iteration 1115; minNextMutationTime = 1017.79; timeNextPopSample = 1018; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1116 


  iteration 1116; minNextMutationTime = 1028; timeNextPopSample = 1018; popParams.size() = 3

 We are SAMPLING at time 1018



*** Looping through 5.2. Iter = 1117 


  iteration 1117; minNextMutationTime = 1029; timeNextPopSample = 1019; popParams.size() = 2

 We are SAMPLING at time 1019



*** Looping through 5.2. Iter = 1118 


  iteration 1118; minNextMutationTime = 1030; timeNextPopSample = 1020; popParams.size() = 2

 We are SAMPLING at time 1020



*** Looping through 5.2. Iter = 1119 


  iteration 1119; minNextMutationTime = 1031; timeNextPopSample = 1021; popParams.size() = 2

 We are SAMPLING at time 1021



*** Looping through 5.2. Iter = 1120 


  iteration 1120; minNextMutationTime = 1032; timeNextPopSample = 1022; popParams.size() = 2

 We are SAMPLING at time 1022



*** Looping through 5.2. Iter = 1121 


  iteration 1121; minNextMutationTime = 1033; timeNextPopSample = 1023; popParams.size() = 2

 We are SAMPLING at time 1023



*** Looping through 5.2. Iter = 1122 


  iteration 1122; minNextMutationTime = 1034; timeNextPopSample = 1024; popParams.size() = 2

 We are SAMPLING at time 1024



*** Looping through 5.2. Iter = 1123 


  iteration 1123; minNextMutationTime = 1024.79; timeNextPopSample = 1025; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1124 


  iteration 1124; minNextMutationTime = 1035; timeNextPopSample = 1025; popParams.size() = 3

 We are SAMPLING at time 1025



*** Looping through 5.2. Iter = 1125 


  iteration 1125; minNextMutationTime = 1036; timeNextPopSample = 1026; popParams.size() = 3

 We are SAMPLING at time 1026



*** Looping through 5.2. Iter = 1126 


  iteration 1126; minNextMutationTime = 1037; timeNextPopSample = 1027; popParams.size() = 3

 We are SAMPLING at time 1027



*** Looping through 5.2. Iter = 1127 


  iteration 1127; minNextMutationTime = 1038; timeNextPopSample = 1028; popParams.size() = 2

 We are SAMPLING at time 1028



*** Looping through 5.2. Iter = 1128 


  iteration 1128; minNextMutationTime = 1039; timeNextPopSample = 1029; popParams.size() = 2

 We are SAMPLING at time 1029



*** Looping through 5.2. Iter = 1129 


  iteration 1129; minNextMutationTime = 1040; timeNextPopSample = 1030; popParams.size() = 2

 We are SAMPLING at time 1030



*** Looping through 5.2. Iter = 1130 


  iteration 1130; minNextMutationTime = 1041; timeNextPopSample = 1031; popParams.size() = 2

 We are SAMPLING at time 1031



*** Looping through 5.2. Iter = 1131 


  iteration 1131; minNextMutationTime = 1042; timeNextPopSample = 1032; popParams.size() = 2

 We are SAMPLING at time 1032



*** Looping through 5.2. Iter = 1132 


  iteration 1132; minNextMutationTime = 1043; timeNextPopSample = 1033; popParams.size() = 2

 We are SAMPLING at time 1033



*** Looping through 5.2. Iter = 1133 


  iteration 1133; minNextMutationTime = 1044; timeNextPopSample = 1034; popParams.size() = 2

 We are SAMPLING at time 1034



*** Looping through 5.2. Iter = 1134 


  iteration 1134; minNextMutationTime = 1045; timeNextPopSample = 1035; popParams.size() = 2

 We are SAMPLING at time 1035



*** Looping through 5.2. Iter = 1135 


  iteration 1135; minNextMutationTime = 1046; timeNextPopSample = 1036; popParams.size() = 2

 We are SAMPLING at time 1036



*** Looping through 5.2. Iter = 1136 


  iteration 1136; minNextMutationTime = 1047; timeNextPopSample = 1037; popParams.size() = 1

 We are SAMPLING at time 1037



*** Looping through 5.2. Iter = 1137 


  iteration 1137; minNextMutationTime = 1048; timeNextPopSample = 1038; popParams.size() = 1

 We are SAMPLING at time 1038



*** Looping through 5.2. Iter = 1138 


  iteration 1138; minNextMutationTime = 1049; timeNextPopSample = 1039; popParams.size() = 1

 We are SAMPLING at time 1039



*** Looping through 5.2. Iter = 1139 


  iteration 1139; minNextMutationTime = 1050; timeNextPopSample = 1040; popParams.size() = 1

 We are SAMPLING at time 1040



*** Looping through 5.2. Iter = 1140 


  iteration 1140; minNextMutationTime = 1051; timeNextPopSample = 1041; popParams.size() = 1

 We are SAMPLING at time 1041



*** Looping through 5.2. Iter = 1141 


  iteration 1141; minNextMutationTime = 1052; timeNextPopSample = 1042; popParams.size() = 1

 We are SAMPLING at time 1042



*** Looping through 5.2. Iter = 1142 


  iteration 1142; minNextMutationTime = 1053; timeNextPopSample = 1043; popParams.size() = 1

 We are SAMPLING at time 1043



*** Looping through 5.2. Iter = 1143 


  iteration 1143; minNextMutationTime = 1054; timeNextPopSample = 1044; popParams.size() = 1

 We are SAMPLING at time 1044



*** Looping through 5.2. Iter = 1144 


  iteration 1144; minNextMutationTime = 1055; timeNextPopSample = 1045; popParams.size() = 1

 We are SAMPLING at time 1045



*** Looping through 5.2. Iter = 1145 


  iteration 1145; minNextMutationTime = 1056; timeNextPopSample = 1046; popParams.size() = 1

 We are SAMPLING at time 1046



*** Looping through 5.2. Iter = 1146 


  iteration 1146; minNextMutationTime = 1057; timeNextPopSample = 1047; popParams.size() = 1

 We are SAMPLING at time 1047



*** Looping through 5.2. Iter = 1147 


  iteration 1147; minNextMutationTime = 1058; timeNextPopSample = 1048; popParams.size() = 1

 We are SAMPLING at time 1048



*** Looping through 5.2. Iter = 1148 


  iteration 1148; minNextMutationTime = 1059; timeNextPopSample = 1049; popParams.size() = 1

 We are SAMPLING at time 1049



*** Looping through 5.2. Iter = 1149 


  iteration 1149; minNextMutationTime = 1060; timeNextPopSample = 1050; popParams.size() = 1

 We are SAMPLING at time 1050



*** Looping through 5.2. Iter = 1150 


  iteration 1150; minNextMutationTime = 1061; timeNextPopSample = 1051; popParams.size() = 1

 We are SAMPLING at time 1051



*** Looping through 5.2. Iter = 1151 


  iteration 1151; minNextMutationTime = 1062; timeNextPopSample = 1052; popParams.size() = 1

 We are SAMPLING at time 1052



*** Looping through 5.2. Iter = 1152 


  iteration 1152; minNextMutationTime = 1063; timeNextPopSample = 1053; popParams.size() = 1

 We are SAMPLING at time 1053



*** Looping through 5.2. Iter = 1153 


  iteration 1153; minNextMutationTime = 1064; timeNextPopSample = 1054; popParams.size() = 1

 We are SAMPLING at time 1054



*** Looping through 5.2. Iter = 1154 


  iteration 1154; minNextMutationTime = 1065; timeNextPopSample = 1055; popParams.size() = 1

 We are SAMPLING at time 1055



*** Looping through 5.2. Iter = 1155 


  iteration 1155; minNextMutationTime = 1066; timeNextPopSample = 1056; popParams.size() = 1

 We are SAMPLING at time 1056



*** Looping through 5.2. Iter = 1156 


  iteration 1156; minNextMutationTime = 1067; timeNextPopSample = 1057; popParams.size() = 1

 We are SAMPLING at time 1057



*** Looping through 5.2. Iter = 1157 


  iteration 1157; minNextMutationTime = 1068; timeNextPopSample = 1058; popParams.size() = 1

 We are SAMPLING at time 1058



*** Looping through 5.2. Iter = 1158 


  iteration 1158; minNextMutationTime = 1069; timeNextPopSample = 1059; popParams.size() = 1

 We are SAMPLING at time 1059



*** Looping through 5.2. Iter = 1159 


  iteration 1159; minNextMutationTime = 1070; timeNextPopSample = 1060; popParams.size() = 1

 We are SAMPLING at time 1060



*** Looping through 5.2. Iter = 1160 


  iteration 1160; minNextMutationTime = 1060.67; timeNextPopSample = 1061; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1161 


  iteration 1161; minNextMutationTime = 1071; timeNextPopSample = 1061; popParams.size() = 2

 We are SAMPLING at time 1061



*** Looping through 5.2. Iter = 1162 


  iteration 1162; minNextMutationTime = 1072; timeNextPopSample = 1062; popParams.size() = 2

 We are SAMPLING at time 1062



*** Looping through 5.2. Iter = 1163 


  iteration 1163; minNextMutationTime = 1073; timeNextPopSample = 1063; popParams.size() = 2

 We are SAMPLING at time 1063



*** Looping through 5.2. Iter = 1164 


  iteration 1164; minNextMutationTime = 1074; timeNextPopSample = 1064; popParams.size() = 1

 We are SAMPLING at time 1064



*** Looping through 5.2. Iter = 1165 


  iteration 1165; minNextMutationTime = 1075; timeNextPopSample = 1065; popParams.size() = 1

 We are SAMPLING at time 1065



*** Looping through 5.2. Iter = 1166 


  iteration 1166; minNextMutationTime = 1076; timeNextPopSample = 1066; popParams.size() = 1

 We are SAMPLING at time 1066



*** Looping through 5.2. Iter = 1167 


  iteration 1167; minNextMutationTime = 1066.55; timeNextPopSample = 1067; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1168 


  iteration 1168; minNextMutationTime = 1077; timeNextPopSample = 1067; popParams.size() = 2

 We are SAMPLING at time 1067



*** Looping through 5.2. Iter = 1169 


  iteration 1169; minNextMutationTime = 1078; timeNextPopSample = 1068; popParams.size() = 2

 We are SAMPLING at time 1068



*** Looping through 5.2. Iter = 1170 


  iteration 1170; minNextMutationTime = 1079; timeNextPopSample = 1069; popParams.size() = 1

 We are SAMPLING at time 1069



*** Looping through 5.2. Iter = 1171 


  iteration 1171; minNextMutationTime = 1080; timeNextPopSample = 1070; popParams.size() = 1

 We are SAMPLING at time 1070



*** Looping through 5.2. Iter = 1172 


  iteration 1172; minNextMutationTime = 1081; timeNextPopSample = 1071; popParams.size() = 1

 We are SAMPLING at time 1071



*** Looping through 5.2. Iter = 1173 


  iteration 1173; minNextMutationTime = 1082; timeNextPopSample = 1072; popParams.size() = 1

 We are SAMPLING at time 1072



*** Looping through 5.2. Iter = 1174 


  iteration 1174; minNextMutationTime = 1083; timeNextPopSample = 1073; popParams.size() = 1

 We are SAMPLING at time 1073



*** Looping through 5.2. Iter = 1175 


  iteration 1175; minNextMutationTime = 1084; timeNextPopSample = 1074; popParams.size() = 1

 We are SAMPLING at time 1074



*** Looping through 5.2. Iter = 1176 


  iteration 1176; minNextMutationTime = 1085; timeNextPopSample = 1075; popParams.size() = 1

 We are SAMPLING at time 1075



*** Looping through 5.2. Iter = 1177 


  iteration 1177; minNextMutationTime = 1086; timeNextPopSample = 1076; popParams.size() = 1

 We are SAMPLING at time 1076



*** Looping through 5.2. Iter = 1178 


  iteration 1178; minNextMutationTime = 1087; timeNextPopSample = 1077; popParams.size() = 1

 We are SAMPLING at time 1077



*** Looping through 5.2. Iter = 1179 


  iteration 1179; minNextMutationTime = 1088; timeNextPopSample = 1078; popParams.size() = 1

 We are SAMPLING at time 1078



*** Looping through 5.2. Iter = 1180 


  iteration 1180; minNextMutationTime = 1089; timeNextPopSample = 1079; popParams.size() = 1

 We are SAMPLING at time 1079



*** Looping through 5.2. Iter = 1181 


  iteration 1181; minNextMutationTime = 1090; timeNextPopSample = 1080; popParams.size() = 1

 We are SAMPLING at time 1080



*** Looping through 5.2. Iter = 1182 


  iteration 1182; minNextMutationTime = 1091; timeNextPopSample = 1081; popParams.size() = 1

 We are SAMPLING at time 1081



*** Looping through 5.2. Iter = 1183 


  iteration 1183; minNextMutationTime = 1092; timeNextPopSample = 1082; popParams.size() = 1

 We are SAMPLING at time 1082



*** Looping through 5.2. Iter = 1184 


  iteration 1184; minNextMutationTime = 1093; timeNextPopSample = 1083; popParams.size() = 1

 We are SAMPLING at time 1083



*** Looping through 5.2. Iter = 1185 


  iteration 1185; minNextMutationTime = 1094; timeNextPopSample = 1084; popParams.size() = 1

 We are SAMPLING at time 1084



*** Looping through 5.2. Iter = 1186 


  iteration 1186; minNextMutationTime = 1095; timeNextPopSample = 1085; popParams.size() = 1

 We are SAMPLING at time 1085



*** Looping through 5.2. Iter = 1187 


  iteration 1187; minNextMutationTime = 1096; timeNextPopSample = 1086; popParams.size() = 1

 We are SAMPLING at time 1086



*** Looping through 5.2. Iter = 1188 


  iteration 1188; minNextMutationTime = 1086.48; timeNextPopSample = 1087; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1189 


  iteration 1189; minNextMutationTime = 1097; timeNextPopSample = 1087; popParams.size() = 2

 We are SAMPLING at time 1087



*** Looping through 5.2. Iter = 1190 


  iteration 1190; minNextMutationTime = 1098; timeNextPopSample = 1088; popParams.size() = 1

 We are SAMPLING at time 1088



*** Looping through 5.2. Iter = 1191 


  iteration 1191; minNextMutationTime = 1099; timeNextPopSample = 1089; popParams.size() = 1

 We are SAMPLING at time 1089



*** Looping through 5.2. Iter = 1192 


  iteration 1192; minNextMutationTime = 1100; timeNextPopSample = 1090; popParams.size() = 1

 We are SAMPLING at time 1090



*** Looping through 5.2. Iter = 1193 


  iteration 1193; minNextMutationTime = 1101; timeNextPopSample = 1091; popParams.size() = 1

 We are SAMPLING at time 1091



*** Looping through 5.2. Iter = 1194 


  iteration 1194; minNextMutationTime = 1102; timeNextPopSample = 1092; popParams.size() = 1

 We are SAMPLING at time 1092



*** Looping through 5.2. Iter = 1195 


  iteration 1195; minNextMutationTime = 1103; timeNextPopSample = 1093; popParams.size() = 1

 We are SAMPLING at time 1093



*** Looping through 5.2. Iter = 1196 


  iteration 1196; minNextMutationTime = 1104; timeNextPopSample = 1094; popParams.size() = 1

 We are SAMPLING at time 1094



*** Looping through 5.2. Iter = 1197 


  iteration 1197; minNextMutationTime = 1105; timeNextPopSample = 1095; popParams.size() = 1

 We are SAMPLING at time 1095



*** Looping through 5.2. Iter = 1198 


  iteration 1198; minNextMutationTime = 1106; timeNextPopSample = 1096; popParams.size() = 1

 We are SAMPLING at time 1096



*** Looping through 5.2. Iter = 1199 


  iteration 1199; minNextMutationTime = 1107; timeNextPopSample = 1097; popParams.size() = 1

 We are SAMPLING at time 1097



*** Looping through 5.2. Iter = 1200 


  iteration 1200; minNextMutationTime = 1108; timeNextPopSample = 1098; popParams.size() = 1

 We are SAMPLING at time 1098



*** Looping through 5.2. Iter = 1201 


  iteration 1201; minNextMutationTime = 1109; timeNextPopSample = 1099; popParams.size() = 1

 We are SAMPLING at time 1099



*** Looping through 5.2. Iter = 1202 


  iteration 1202; minNextMutationTime = 1099.68; timeNextPopSample = 1100; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1203 


  iteration 1203; minNextMutationTime = 1110; timeNextPopSample = 1100; popParams.size() = 2

 We are SAMPLING at time 1100



*** Looping through 5.2. Iter = 1204 


  iteration 1204; minNextMutationTime = 1111; timeNextPopSample = 1101; popParams.size() = 2

 We are SAMPLING at time 1101



*** Looping through 5.2. Iter = 1205 


  iteration 1205; minNextMutationTime = 1112; timeNextPopSample = 1102; popParams.size() = 2

 We are SAMPLING at time 1102



*** Looping through 5.2. Iter = 1206 


  iteration 1206; minNextMutationTime = 1113; timeNextPopSample = 1103; popParams.size() = 2

 We are SAMPLING at time 1103



*** Looping through 5.2. Iter = 1207 


  iteration 1207; minNextMutationTime = 1114; timeNextPopSample = 1104; popParams.size() = 2

 We are SAMPLING at time 1104



*** Looping through 5.2. Iter = 1208 


  iteration 1208; minNextMutationTime = 1115; timeNextPopSample = 1105; popParams.size() = 2

 We are SAMPLING at time 1105



*** Looping through 5.2. Iter = 1209 


  iteration 1209; minNextMutationTime = 1116; timeNextPopSample = 1106; popParams.size() = 1

 We are SAMPLING at time 1106



*** Looping through 5.2. Iter = 1210 


  iteration 1210; minNextMutationTime = 1117; timeNextPopSample = 1107; popParams.size() = 1

 We are SAMPLING at time 1107



*** Looping through 5.2. Iter = 1211 


  iteration 1211; minNextMutationTime = 1118; timeNextPopSample = 1108; popParams.size() = 1

 We are SAMPLING at time 1108



*** Looping through 5.2. Iter = 1212 


  iteration 1212; minNextMutationTime = 1119; timeNextPopSample = 1109; popParams.size() = 1

 We are SAMPLING at time 1109



*** Looping through 5.2. Iter = 1213 


  iteration 1213; minNextMutationTime = 1120; timeNextPopSample = 1110; popParams.size() = 1

 We are SAMPLING at time 1110



*** Looping through 5.2. Iter = 1214 


  iteration 1214; minNextMutationTime = 1121; timeNextPopSample = 1111; popParams.size() = 1

 We are SAMPLING at time 1111



*** Looping through 5.2. Iter = 1215 


  iteration 1215; minNextMutationTime = 1122; timeNextPopSample = 1112; popParams.size() = 1

 We are SAMPLING at time 1112



*** Looping through 5.2. Iter = 1216 


  iteration 1216; minNextMutationTime = 1123; timeNextPopSample = 1113; popParams.size() = 1

 We are SAMPLING at time 1113



*** Looping through 5.2. Iter = 1217 


  iteration 1217; minNextMutationTime = 1124; timeNextPopSample = 1114; popParams.size() = 1

 We are SAMPLING at time 1114



*** Looping through 5.2. Iter = 1218 


  iteration 1218; minNextMutationTime = 1125; timeNextPopSample = 1115; popParams.size() = 1

 We are SAMPLING at time 1115



*** Looping through 5.2. Iter = 1219 


  iteration 1219; minNextMutationTime = 1126; timeNextPopSample = 1116; popParams.size() = 1

 We are SAMPLING at time 1116



*** Looping through 5.2. Iter = 1220 


  iteration 1220; minNextMutationTime = 1127; timeNextPopSample = 1117; popParams.size() = 1

 We are SAMPLING at time 1117



*** Looping through 5.2. Iter = 1221 


  iteration 1221; minNextMutationTime = 1117.16; timeNextPopSample = 1118; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1222 


  iteration 1222; minNextMutationTime = 1128; timeNextPopSample = 1118; popParams.size() = 2

 We are SAMPLING at time 1118



*** Looping through 5.2. Iter = 1223 


  iteration 1223; minNextMutationTime = 1129; timeNextPopSample = 1119; popParams.size() = 1

 We are SAMPLING at time 1119



*** Looping through 5.2. Iter = 1224 


  iteration 1224; minNextMutationTime = 1130; timeNextPopSample = 1120; popParams.size() = 1

 We are SAMPLING at time 1120



*** Looping through 5.2. Iter = 1225 


  iteration 1225; minNextMutationTime = 1120.57; timeNextPopSample = 1121; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1226 


  iteration 1226; minNextMutationTime = 1131; timeNextPopSample = 1121; popParams.size() = 2

 We are SAMPLING at time 1121



*** Looping through 5.2. Iter = 1227 


  iteration 1227; minNextMutationTime = 1132; timeNextPopSample = 1122; popParams.size() = 1

 We are SAMPLING at time 1122



*** Looping through 5.2. Iter = 1228 


  iteration 1228; minNextMutationTime = 1133; timeNextPopSample = 1123; popParams.size() = 1

 We are SAMPLING at time 1123



*** Looping through 5.2. Iter = 1229 


  iteration 1229; minNextMutationTime = 1134; timeNextPopSample = 1124; popParams.size() = 1

 We are SAMPLING at time 1124



*** Looping through 5.2. Iter = 1230 


  iteration 1230; minNextMutationTime = 1135; timeNextPopSample = 1125; popParams.size() = 1

 We are SAMPLING at time 1125



*** Looping through 5.2. Iter = 1231 


  iteration 1231; minNextMutationTime = 1136; timeNextPopSample = 1126; popParams.size() = 1

 We are SAMPLING at time 1126



*** Looping through 5.2. Iter = 1232 


  iteration 1232; minNextMutationTime = 1137; timeNextPopSample = 1127; popParams.size() = 1

 We are SAMPLING at time 1127



*** Looping through 5.2. Iter = 1233 


  iteration 1233; minNextMutationTime = 1138; timeNextPopSample = 1128; popParams.size() = 1

 We are SAMPLING at time 1128



*** Looping through 5.2. Iter = 1234 


  iteration 1234; minNextMutationTime = 1128.24; timeNextPopSample = 1129; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1235 


  iteration 1235; minNextMutationTime = 1128.5; timeNextPopSample = 1129; popParams.size() = 2

     Mutated to existing species 1 (Genotype = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 1)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 1)
 New popSize = 2



*** Looping through 5.2. Iter = 1236 


  iteration 1236; minNextMutationTime = 1128.73; timeNextPopSample = 1129; popParams.size() = 2

     Mutated to existing species 1 (Genotype = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 1)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 1)
 New popSize = 3



*** Looping through 5.2. Iter = 1237 


  iteration 1237; minNextMutationTime = 1139; timeNextPopSample = 1129; popParams.size() = 2

 We are SAMPLING at time 1129



*** Looping through 5.2. Iter = 1238 


  iteration 1238; minNextMutationTime = 1140; timeNextPopSample = 1130; popParams.size() = 1

 We are SAMPLING at time 1130



*** Looping through 5.2. Iter = 1239 


  iteration 1239; minNextMutationTime = 1141; timeNextPopSample = 1131; popParams.size() = 1

 We are SAMPLING at time 1131



*** Looping through 5.2. Iter = 1240 


  iteration 1240; minNextMutationTime = 1142; timeNextPopSample = 1132; popParams.size() = 1

 We are SAMPLING at time 1132



*** Looping through 5.2. Iter = 1241 


  iteration 1241; minNextMutationTime = 1143; timeNextPopSample = 1133; popParams.size() = 1

 We are SAMPLING at time 1133



*** Looping through 5.2. Iter = 1242 


  iteration 1242; minNextMutationTime = 1144; timeNextPopSample = 1134; popParams.size() = 1

 We are SAMPLING at time 1134



*** Looping through 5.2. Iter = 1243 


  iteration 1243; minNextMutationTime = 1145; timeNextPopSample = 1135; popParams.size() = 1

 We are SAMPLING at time 1135



*** Looping through 5.2. Iter = 1244 


  iteration 1244; minNextMutationTime = 1146; timeNextPopSample = 1136; popParams.size() = 1

 We are SAMPLING at time 1136



*** Looping through 5.2. Iter = 1245 


  iteration 1245; minNextMutationTime = 1147; timeNextPopSample = 1137; popParams.size() = 1

 We are SAMPLING at time 1137



*** Looping through 5.2. Iter = 1246 


  iteration 1246; minNextMutationTime = 1148; timeNextPopSample = 1138; popParams.size() = 1

 We are SAMPLING at time 1138



*** Looping through 5.2. Iter = 1247 


  iteration 1247; minNextMutationTime = 1149; timeNextPopSample = 1139; popParams.size() = 1

 We are SAMPLING at time 1139



*** Looping through 5.2. Iter = 1248 


  iteration 1248; minNextMutationTime = 1150; timeNextPopSample = 1140; popParams.size() = 1

 We are SAMPLING at time 1140



*** Looping through 5.2. Iter = 1249 


  iteration 1249; minNextMutationTime = 1151; timeNextPopSample = 1141; popParams.size() = 1

 We are SAMPLING at time 1141



*** Looping through 5.2. Iter = 1250 


  iteration 1250; minNextMutationTime = 1152; timeNextPopSample = 1142; popParams.size() = 1

 We are SAMPLING at time 1142



*** Looping through 5.2. Iter = 1251 


  iteration 1251; minNextMutationTime = 1153; timeNextPopSample = 1143; popParams.size() = 1

 We are SAMPLING at time 1143



*** Looping through 5.2. Iter = 1252 


  iteration 1252; minNextMutationTime = 1154; timeNextPopSample = 1144; popParams.size() = 1

 We are SAMPLING at time 1144



*** Looping through 5.2. Iter = 1253 


  iteration 1253; minNextMutationTime = 1155; timeNextPopSample = 1145; popParams.size() = 1

 We are SAMPLING at time 1145



*** Looping through 5.2. Iter = 1254 


  iteration 1254; minNextMutationTime = 1156; timeNextPopSample = 1146; popParams.size() = 1

 We are SAMPLING at time 1146



*** Looping through 5.2. Iter = 1255 


  iteration 1255; minNextMutationTime = 1157; timeNextPopSample = 1147; popParams.size() = 1

 We are SAMPLING at time 1147



*** Looping through 5.2. Iter = 1256 


  iteration 1256; minNextMutationTime = 1158; timeNextPopSample = 1148; popParams.size() = 1

 We are SAMPLING at time 1148



*** Looping through 5.2. Iter = 1257 


  iteration 1257; minNextMutationTime = 1159; timeNextPopSample = 1149; popParams.size() = 1

 We are SAMPLING at time 1149



*** Looping through 5.2. Iter = 1258 


  iteration 1258; minNextMutationTime = 1160; timeNextPopSample = 1150; popParams.size() = 1

 We are SAMPLING at time 1150



*** Looping through 5.2. Iter = 1259 


  iteration 1259; minNextMutationTime = 1161; timeNextPopSample = 1151; popParams.size() = 1

 We are SAMPLING at time 1151



*** Looping through 5.2. Iter = 1260 


  iteration 1260; minNextMutationTime = 1162; timeNextPopSample = 1152; popParams.size() = 1

 We are SAMPLING at time 1152



*** Looping through 5.2. Iter = 1261 


  iteration 1261; minNextMutationTime = 1152.22; timeNextPopSample = 1153; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1262 


  iteration 1262; minNextMutationTime = 1163; timeNextPopSample = 1153; popParams.size() = 2

 We are SAMPLING at time 1153



*** Looping through 5.2. Iter = 1263 


  iteration 1263; minNextMutationTime = 1164; timeNextPopSample = 1154; popParams.size() = 2

 We are SAMPLING at time 1154



*** Looping through 5.2. Iter = 1264 


  iteration 1264; minNextMutationTime = 1165; timeNextPopSample = 1155; popParams.size() = 1

 We are SAMPLING at time 1155



*** Looping through 5.2. Iter = 1265 


  iteration 1265; minNextMutationTime = 1166; timeNextPopSample = 1156; popParams.size() = 1

 We are SAMPLING at time 1156



*** Looping through 5.2. Iter = 1266 


  iteration 1266; minNextMutationTime = 1167; timeNextPopSample = 1157; popParams.size() = 1

 We are SAMPLING at time 1157



*** Looping through 5.2. Iter = 1267 


  iteration 1267; minNextMutationTime = 1168; timeNextPopSample = 1158; popParams.size() = 1

 We are SAMPLING at time 1158



*** Looping through 5.2. Iter = 1268 


  iteration 1268; minNextMutationTime = 1169; timeNextPopSample = 1159; popParams.size() = 1

 We are SAMPLING at time 1159



*** Looping through 5.2. Iter = 1269 


  iteration 1269; minNextMutationTime = 1170; timeNextPopSample = 1160; popParams.size() = 1

 We are SAMPLING at time 1160



*** Looping through 5.2. Iter = 1270 


  iteration 1270; minNextMutationTime = 1160.18; timeNextPopSample = 1161; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1271 


  iteration 1271; minNextMutationTime = 1171; timeNextPopSample = 1161; popParams.size() = 2

 We are SAMPLING at time 1161



*** Looping through 5.2. Iter = 1272 


  iteration 1272; minNextMutationTime = 1172; timeNextPopSample = 1162; popParams.size() = 1

 We are SAMPLING at time 1162



*** Looping through 5.2. Iter = 1273 


  iteration 1273; minNextMutationTime = 1173; timeNextPopSample = 1163; popParams.size() = 1

 We are SAMPLING at time 1163



*** Looping through 5.2. Iter = 1274 


  iteration 1274; minNextMutationTime = 1174; timeNextPopSample = 1164; popParams.size() = 1

 We are SAMPLING at time 1164



*** Looping through 5.2. Iter = 1275 


  iteration 1275; minNextMutationTime = 1175; timeNextPopSample = 1165; popParams.size() = 1

 We are SAMPLING at time 1165



*** Looping through 5.2. Iter = 1276 


  iteration 1276; minNextMutationTime = 1176; timeNextPopSample = 1166; popParams.size() = 1

 We are SAMPLING at time 1166



*** Looping through 5.2. Iter = 1277 


  iteration 1277; minNextMutationTime = 1177; timeNextPopSample = 1167; popParams.size() = 1

 We are SAMPLING at time 1167



*** Looping through 5.2. Iter = 1278 


  iteration 1278; minNextMutationTime = 1178; timeNextPopSample = 1168; popParams.size() = 1

 We are SAMPLING at time 1168



*** Looping through 5.2. Iter = 1279 


  iteration 1279; minNextMutationTime = 1179; timeNextPopSample = 1169; popParams.size() = 1

 We are SAMPLING at time 1169



*** Looping through 5.2. Iter = 1280 


  iteration 1280; minNextMutationTime = 1180; timeNextPopSample = 1170; popParams.size() = 1

 We are SAMPLING at time 1170



*** Looping through 5.2. Iter = 1281 


  iteration 1281; minNextMutationTime = 1181; timeNextPopSample = 1171; popParams.size() = 1

 We are SAMPLING at time 1171



*** Looping through 5.2. Iter = 1282 


  iteration 1282; minNextMutationTime = 1182; timeNextPopSample = 1172; popParams.size() = 1

 We are SAMPLING at time 1172



*** Looping through 5.2. Iter = 1283 


  iteration 1283; minNextMutationTime = 1183; timeNextPopSample = 1173; popParams.size() = 1

 We are SAMPLING at time 1173



*** Looping through 5.2. Iter = 1284 


  iteration 1284; minNextMutationTime = 1184; timeNextPopSample = 1174; popParams.size() = 1

 We are SAMPLING at time 1174



*** Looping through 5.2. Iter = 1285 


  iteration 1285; minNextMutationTime = 1185; timeNextPopSample = 1175; popParams.size() = 1

 We are SAMPLING at time 1175



*** Looping through 5.2. Iter = 1286 


  iteration 1286; minNextMutationTime = 1186; timeNextPopSample = 1176; popParams.size() = 1

 We are SAMPLING at time 1176



*** Looping through 5.2. Iter = 1287 


  iteration 1287; minNextMutationTime = 1187; timeNextPopSample = 1177; popParams.size() = 1

 We are SAMPLING at time 1177



*** Looping through 5.2. Iter = 1288 


  iteration 1288; minNextMutationTime = 1188; timeNextPopSample = 1178; popParams.size() = 1

 We are SAMPLING at time 1178



*** Looping through 5.2. Iter = 1289 


  iteration 1289; minNextMutationTime = 1178.26; timeNextPopSample = 1179; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1290 


  iteration 1290; minNextMutationTime = 1189; timeNextPopSample = 1179; popParams.size() = 2

 We are SAMPLING at time 1179



*** Looping through 5.2. Iter = 1291 


  iteration 1291; minNextMutationTime = 1190; timeNextPopSample = 1180; popParams.size() = 1

 We are SAMPLING at time 1180



*** Looping through 5.2. Iter = 1292 


  iteration 1292; minNextMutationTime = 1191; timeNextPopSample = 1181; popParams.size() = 1

 We are SAMPLING at time 1181



*** Looping through 5.2. Iter = 1293 


  iteration 1293; minNextMutationTime = 1192; timeNextPopSample = 1182; popParams.size() = 1

 We are SAMPLING at time 1182



*** Looping through 5.2. Iter = 1294 


  iteration 1294; minNextMutationTime = 1193; timeNextPopSample = 1183; popParams.size() = 1

 We are SAMPLING at time 1183



*** Looping through 5.2. Iter = 1295 


  iteration 1295; minNextMutationTime = 1194; timeNextPopSample = 1184; popParams.size() = 1

 We are SAMPLING at time 1184



*** Looping through 5.2. Iter = 1296 


  iteration 1296; minNextMutationTime = 1195; timeNextPopSample = 1185; popParams.size() = 1

 We are SAMPLING at time 1185



*** Looping through 5.2. Iter = 1297 


  iteration 1297; minNextMutationTime = 1196; timeNextPopSample = 1186; popParams.size() = 1

 We are SAMPLING at time 1186



*** Looping through 5.2. Iter = 1298 


  iteration 1298; minNextMutationTime = 1197; timeNextPopSample = 1187; popParams.size() = 1

 We are SAMPLING at time 1187



*** Looping through 5.2. Iter = 1299 


  iteration 1299; minNextMutationTime = 1198; timeNextPopSample = 1188; popParams.size() = 1

 We are SAMPLING at time 1188



*** Looping through 5.2. Iter = 1300 


  iteration 1300; minNextMutationTime = 1199; timeNextPopSample = 1189; popParams.size() = 1

 We are SAMPLING at time 1189



*** Looping through 5.2. Iter = 1301 


  iteration 1301; minNextMutationTime = 1189.53; timeNextPopSample = 1190; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1302 


  iteration 1302; minNextMutationTime = 1200; timeNextPopSample = 1190; popParams.size() = 2

 We are SAMPLING at time 1190



*** Looping through 5.2. Iter = 1303 


  iteration 1303; minNextMutationTime = 1201; timeNextPopSample = 1191; popParams.size() = 2

 We are SAMPLING at time 1191



*** Looping through 5.2. Iter = 1304 


  iteration 1304; minNextMutationTime = 1202; timeNextPopSample = 1192; popParams.size() = 1

 We are SAMPLING at time 1192



*** Looping through 5.2. Iter = 1305 


  iteration 1305; minNextMutationTime = 1203; timeNextPopSample = 1193; popParams.size() = 1

 We are SAMPLING at time 1193



*** Looping through 5.2. Iter = 1306 


  iteration 1306; minNextMutationTime = 1204; timeNextPopSample = 1194; popParams.size() = 1

 We are SAMPLING at time 1194



*** Looping through 5.2. Iter = 1307 


  iteration 1307; minNextMutationTime = 1205; timeNextPopSample = 1195; popParams.size() = 1

 We are SAMPLING at time 1195



*** Looping through 5.2. Iter = 1308 


  iteration 1308; minNextMutationTime = 1206; timeNextPopSample = 1196; popParams.size() = 1

 We are SAMPLING at time 1196



*** Looping through 5.2. Iter = 1309 


  iteration 1309; minNextMutationTime = 1196.32; timeNextPopSample = 1197; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1310 


  iteration 1310; minNextMutationTime = 1207; timeNextPopSample = 1197; popParams.size() = 2

 We are SAMPLING at time 1197



*** Looping through 5.2. Iter = 1311 


  iteration 1311; minNextMutationTime = 1197.63; timeNextPopSample = 1198; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1312 


  iteration 1312; minNextMutationTime = 1208; timeNextPopSample = 1198; popParams.size() = 3

 We are SAMPLING at time 1198



*** Looping through 5.2. Iter = 1313 


  iteration 1313; minNextMutationTime = 1209; timeNextPopSample = 1199; popParams.size() = 2

 We are SAMPLING at time 1199



*** Looping through 5.2. Iter = 1314 


  iteration 1314; minNextMutationTime = 1210; timeNextPopSample = 1200; popParams.size() = 1

 We are SAMPLING at time 1200



*** Looping through 5.2. Iter = 1315 


  iteration 1315; minNextMutationTime = 1211; timeNextPopSample = 1201; popParams.size() = 1

 We are SAMPLING at time 1201



*** Looping through 5.2. Iter = 1316 


  iteration 1316; minNextMutationTime = 1212; timeNextPopSample = 1202; popParams.size() = 1

 We are SAMPLING at time 1202



*** Looping through 5.2. Iter = 1317 


  iteration 1317; minNextMutationTime = 1213; timeNextPopSample = 1203; popParams.size() = 1

 We are SAMPLING at time 1203



*** Looping through 5.2. Iter = 1318 


  iteration 1318; minNextMutationTime = 1214; timeNextPopSample = 1204; popParams.size() = 1

 We are SAMPLING at time 1204



*** Looping through 5.2. Iter = 1319 


  iteration 1319; minNextMutationTime = 1215; timeNextPopSample = 1205; popParams.size() = 1

 We are SAMPLING at time 1205



*** Looping through 5.2. Iter = 1320 


  iteration 1320; minNextMutationTime = 1205.91; timeNextPopSample = 1206; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1321 


  iteration 1321; minNextMutationTime = 1216; timeNextPopSample = 1206; popParams.size() = 2

 We are SAMPLING at time 1206



*** Looping through 5.2. Iter = 1322 


  iteration 1322; minNextMutationTime = 1217; timeNextPopSample = 1207; popParams.size() = 2

 We are SAMPLING at time 1207



*** Looping through 5.2. Iter = 1323 


  iteration 1323; minNextMutationTime = 1218; timeNextPopSample = 1208; popParams.size() = 1

 We are SAMPLING at time 1208



*** Looping through 5.2. Iter = 1324 


  iteration 1324; minNextMutationTime = 1219; timeNextPopSample = 1209; popParams.size() = 1

 We are SAMPLING at time 1209



*** Looping through 5.2. Iter = 1325 


  iteration 1325; minNextMutationTime = 1220; timeNextPopSample = 1210; popParams.size() = 1

 We are SAMPLING at time 1210



*** Looping through 5.2. Iter = 1326 


  iteration 1326; minNextMutationTime = 1221; timeNextPopSample = 1211; popParams.size() = 1

 We are SAMPLING at time 1211



*** Looping through 5.2. Iter = 1327 


  iteration 1327; minNextMutationTime = 1222; timeNextPopSample = 1212; popParams.size() = 1

 We are SAMPLING at time 1212



*** Looping through 5.2. Iter = 1328 


  iteration 1328; minNextMutationTime = 1223; timeNextPopSample = 1213; popParams.size() = 1

 We are SAMPLING at time 1213



*** Looping through 5.2. Iter = 1329 


  iteration 1329; minNextMutationTime = 1224; timeNextPopSample = 1214; popParams.size() = 1

 We are SAMPLING at time 1214



*** Looping through 5.2. Iter = 1330 


  iteration 1330; minNextMutationTime = 1225; timeNextPopSample = 1215; popParams.size() = 1

 We are SAMPLING at time 1215



*** Looping through 5.2. Iter = 1331 


  iteration 1331; minNextMutationTime = 1226; timeNextPopSample = 1216; popParams.size() = 1

 We are SAMPLING at time 1216



*** Looping through 5.2. Iter = 1332 


  iteration 1332; minNextMutationTime = 1216.8; timeNextPopSample = 1217; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1333 


  iteration 1333; minNextMutationTime = 1227; timeNextPopSample = 1217; popParams.size() = 2

 We are SAMPLING at time 1217



*** Looping through 5.2. Iter = 1334 


  iteration 1334; minNextMutationTime = 1228; timeNextPopSample = 1218; popParams.size() = 2

 We are SAMPLING at time 1218



*** Looping through 5.2. Iter = 1335 


  iteration 1335; minNextMutationTime = 1229; timeNextPopSample = 1219; popParams.size() = 2

 We are SAMPLING at time 1219



*** Looping through 5.2. Iter = 1336 


  iteration 1336; minNextMutationTime = 1230; timeNextPopSample = 1220; popParams.size() = 2

 We are SAMPLING at time 1220



*** Looping through 5.2. Iter = 1337 


  iteration 1337; minNextMutationTime = 1231; timeNextPopSample = 1221; popParams.size() = 1

 We are SAMPLING at time 1221



*** Looping through 5.2. Iter = 1338 


  iteration 1338; minNextMutationTime = 1232; timeNextPopSample = 1222; popParams.size() = 1

 We are SAMPLING at time 1222



*** Looping through 5.2. Iter = 1339 


  iteration 1339; minNextMutationTime = 1233; timeNextPopSample = 1223; popParams.size() = 1

 We are SAMPLING at time 1223



*** Looping through 5.2. Iter = 1340 


  iteration 1340; minNextMutationTime = 1234; timeNextPopSample = 1224; popParams.size() = 1

 We are SAMPLING at time 1224



*** Looping through 5.2. Iter = 1341 


  iteration 1341; minNextMutationTime = 1235; timeNextPopSample = 1225; popParams.size() = 1

 We are SAMPLING at time 1225



*** Looping through 5.2. Iter = 1342 


  iteration 1342; minNextMutationTime = 1236; timeNextPopSample = 1226; popParams.size() = 1

 We are SAMPLING at time 1226



*** Looping through 5.2. Iter = 1343 


  iteration 1343; minNextMutationTime = 1237; timeNextPopSample = 1227; popParams.size() = 1

 We are SAMPLING at time 1227



*** Looping through 5.2. Iter = 1344 


  iteration 1344; minNextMutationTime = 1238; timeNextPopSample = 1228; popParams.size() = 1

 We are SAMPLING at time 1228



*** Looping through 5.2. Iter = 1345 


  iteration 1345; minNextMutationTime = 1239; timeNextPopSample = 1229; popParams.size() = 1

 We are SAMPLING at time 1229



*** Looping through 5.2. Iter = 1346 


  iteration 1346; minNextMutationTime = 1240; timeNextPopSample = 1230; popParams.size() = 1

 We are SAMPLING at time 1230



*** Looping through 5.2. Iter = 1347 


  iteration 1347; minNextMutationTime = 1241; timeNextPopSample = 1231; popParams.size() = 1

 We are SAMPLING at time 1231



*** Looping through 5.2. Iter = 1348 


  iteration 1348; minNextMutationTime = 1242; timeNextPopSample = 1232; popParams.size() = 1

 We are SAMPLING at time 1232



*** Looping through 5.2. Iter = 1349 


  iteration 1349; minNextMutationTime = 1243; timeNextPopSample = 1233; popParams.size() = 1

 We are SAMPLING at time 1233



*** Looping through 5.2. Iter = 1350 


  iteration 1350; minNextMutationTime = 1244; timeNextPopSample = 1234; popParams.size() = 1

 We are SAMPLING at time 1234



*** Looping through 5.2. Iter = 1351 


  iteration 1351; minNextMutationTime = 1245; timeNextPopSample = 1235; popParams.size() = 1

 We are SAMPLING at time 1235



*** Looping through 5.2. Iter = 1352 


  iteration 1352; minNextMutationTime = 1246; timeNextPopSample = 1236; popParams.size() = 1

 We are SAMPLING at time 1236



*** Looping through 5.2. Iter = 1353 


  iteration 1353; minNextMutationTime = 1236.28; timeNextPopSample = 1237; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1354 


  iteration 1354; minNextMutationTime = 1247; timeNextPopSample = 1237; popParams.size() = 2

 We are SAMPLING at time 1237



*** Looping through 5.2. Iter = 1355 


  iteration 1355; minNextMutationTime = 1248; timeNextPopSample = 1238; popParams.size() = 2

 We are SAMPLING at time 1238



*** Looping through 5.2. Iter = 1356 


  iteration 1356; minNextMutationTime = 1249; timeNextPopSample = 1239; popParams.size() = 2

 We are SAMPLING at time 1239



*** Looping through 5.2. Iter = 1357 


  iteration 1357; minNextMutationTime = 1250; timeNextPopSample = 1240; popParams.size() = 2

 We are SAMPLING at time 1240



*** Looping through 5.2. Iter = 1358 


  iteration 1358; minNextMutationTime = 1251; timeNextPopSample = 1241; popParams.size() = 2

 We are SAMPLING at time 1241



*** Looping through 5.2. Iter = 1359 


  iteration 1359; minNextMutationTime = 1252; timeNextPopSample = 1242; popParams.size() = 2

 We are SAMPLING at time 1242



*** Looping through 5.2. Iter = 1360 


  iteration 1360; minNextMutationTime = 1253; timeNextPopSample = 1243; popParams.size() = 2

 We are SAMPLING at time 1243



*** Looping through 5.2. Iter = 1361 


  iteration 1361; minNextMutationTime = 1254; timeNextPopSample = 1244; popParams.size() = 1

 We are SAMPLING at time 1244



*** Looping through 5.2. Iter = 1362 


  iteration 1362; minNextMutationTime = 1255; timeNextPopSample = 1245; popParams.size() = 1

 We are SAMPLING at time 1245



*** Looping through 5.2. Iter = 1363 


  iteration 1363; minNextMutationTime = 1245.59; timeNextPopSample = 1246; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1364 


  iteration 1364; minNextMutationTime = 1256; timeNextPopSample = 1246; popParams.size() = 2

 We are SAMPLING at time 1246



*** Looping through 5.2. Iter = 1365 


  iteration 1365; minNextMutationTime = 1246.64; timeNextPopSample = 1247; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1366 


  iteration 1366; minNextMutationTime = 1257; timeNextPopSample = 1247; popParams.size() = 3

 We are SAMPLING at time 1247



*** Looping through 5.2. Iter = 1367 


  iteration 1367; minNextMutationTime = 1258; timeNextPopSample = 1248; popParams.size() = 1

 We are SAMPLING at time 1248



*** Looping through 5.2. Iter = 1368 


  iteration 1368; minNextMutationTime = 1248.35; timeNextPopSample = 1249; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1369 


  iteration 1369; minNextMutationTime = 1259; timeNextPopSample = 1249; popParams.size() = 2

 We are SAMPLING at time 1249



*** Looping through 5.2. Iter = 1370 


  iteration 1370; minNextMutationTime = 1260; timeNextPopSample = 1250; popParams.size() = 1

 We are SAMPLING at time 1250



*** Looping through 5.2. Iter = 1371 


  iteration 1371; minNextMutationTime = 1261; timeNextPopSample = 1251; popParams.size() = 1

 We are SAMPLING at time 1251



*** Looping through 5.2. Iter = 1372 


  iteration 1372; minNextMutationTime = 1262; timeNextPopSample = 1252; popParams.size() = 1

 We are SAMPLING at time 1252



*** Looping through 5.2. Iter = 1373 


  iteration 1373; minNextMutationTime = 1263; timeNextPopSample = 1253; popParams.size() = 1

 We are SAMPLING at time 1253



*** Looping through 5.2. Iter = 1374 


  iteration 1374; minNextMutationTime = 1264; timeNextPopSample = 1254; popParams.size() = 1

 We are SAMPLING at time 1254



*** Looping through 5.2. Iter = 1375 


  iteration 1375; minNextMutationTime = 1265; timeNextPopSample = 1255; popParams.size() = 1

 We are SAMPLING at time 1255



*** Looping through 5.2. Iter = 1376 


  iteration 1376; minNextMutationTime = 1266; timeNextPopSample = 1256; popParams.size() = 1

 We are SAMPLING at time 1256



*** Looping through 5.2. Iter = 1377 


  iteration 1377; minNextMutationTime = 1267; timeNextPopSample = 1257; popParams.size() = 1

 We are SAMPLING at time 1257



*** Looping through 5.2. Iter = 1378 


  iteration 1378; minNextMutationTime = 1268; timeNextPopSample = 1258; popParams.size() = 1

 We are SAMPLING at time 1258



*** Looping through 5.2. Iter = 1379 


  iteration 1379; minNextMutationTime = 1269; timeNextPopSample = 1259; popParams.size() = 1

 We are SAMPLING at time 1259



*** Looping through 5.2. Iter = 1380 


  iteration 1380; minNextMutationTime = 1270; timeNextPopSample = 1260; popParams.size() = 1

 We are SAMPLING at time 1260



*** Looping through 5.2. Iter = 1381 


  iteration 1381; minNextMutationTime = 1271; timeNextPopSample = 1261; popParams.size() = 1

 We are SAMPLING at time 1261



*** Looping through 5.2. Iter = 1382 


  iteration 1382; minNextMutationTime = 1272; timeNextPopSample = 1262; popParams.size() = 1

 We are SAMPLING at time 1262



*** Looping through 5.2. Iter = 1383 


  iteration 1383; minNextMutationTime = 1273; timeNextPopSample = 1263; popParams.size() = 1

 We are SAMPLING at time 1263



*** Looping through 5.2. Iter = 1384 


  iteration 1384; minNextMutationTime = 1274; timeNextPopSample = 1264; popParams.size() = 1

 We are SAMPLING at time 1264



*** Looping through 5.2. Iter = 1385 


  iteration 1385; minNextMutationTime = 1275; timeNextPopSample = 1265; popParams.size() = 1

 We are SAMPLING at time 1265



*** Looping through 5.2. Iter = 1386 


  iteration 1386; minNextMutationTime = 1265.29; timeNextPopSample = 1266; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1387 


  iteration 1387; minNextMutationTime = 1276; timeNextPopSample = 1266; popParams.size() = 2

 We are SAMPLING at time 1266



*** Looping through 5.2. Iter = 1388 


  iteration 1388; minNextMutationTime = 1277; timeNextPopSample = 1267; popParams.size() = 2

 We are SAMPLING at time 1267



*** Looping through 5.2. Iter = 1389 


  iteration 1389; minNextMutationTime = 1278; timeNextPopSample = 1268; popParams.size() = 2

 We are SAMPLING at time 1268



*** Looping through 5.2. Iter = 1390 


  iteration 1390; minNextMutationTime = 1268.91; timeNextPopSample = 1269; popParams.size() = 2

     Mutated to existing species 1 (Genotype = 0000000000000000000000000000000000000000000000000000000000100000; sp_id = 32)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 32)
 New popSize = 2



*** Looping through 5.2. Iter = 1391 


  iteration 1391; minNextMutationTime = 1279; timeNextPopSample = 1269; popParams.size() = 2

 We are SAMPLING at time 1269



*** Looping through 5.2. Iter = 1392 


  iteration 1392; minNextMutationTime = 1280; timeNextPopSample = 1270; popParams.size() = 2

 We are SAMPLING at time 1270



*** Looping through 5.2. Iter = 1393 


  iteration 1393; minNextMutationTime = 1281; timeNextPopSample = 1271; popParams.size() = 2

 We are SAMPLING at time 1271



*** Looping through 5.2. Iter = 1394 


  iteration 1394; minNextMutationTime = 1271.52; timeNextPopSample = 1272; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1395 


  iteration 1395; minNextMutationTime = 1282; timeNextPopSample = 1272; popParams.size() = 3

 We are SAMPLING at time 1272



*** Looping through 5.2. Iter = 1396 


  iteration 1396; minNextMutationTime = 1283; timeNextPopSample = 1273; popParams.size() = 3

 We are SAMPLING at time 1273



*** Looping through 5.2. Iter = 1397 


  iteration 1397; minNextMutationTime = 1284; timeNextPopSample = 1274; popParams.size() = 2

 We are SAMPLING at time 1274



*** Looping through 5.2. Iter = 1398 


  iteration 1398; minNextMutationTime = 1274.46; timeNextPopSample = 1275; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1399 


  iteration 1399; minNextMutationTime = 1285; timeNextPopSample = 1275; popParams.size() = 2

 We are SAMPLING at time 1275



*** Looping through 5.2. Iter = 1400 


  iteration 1400; minNextMutationTime = 1286; timeNextPopSample = 1276; popParams.size() = 2

 We are SAMPLING at time 1276



*** Looping through 5.2. Iter = 1401 


  iteration 1401; minNextMutationTime = 1287; timeNextPopSample = 1277; popParams.size() = 2

 We are SAMPLING at time 1277



*** Looping through 5.2. Iter = 1402 


  iteration 1402; minNextMutationTime = 1288; timeNextPopSample = 1278; popParams.size() = 1

 We are SAMPLING at time 1278



*** Looping through 5.2. Iter = 1403 


  iteration 1403; minNextMutationTime = 1289; timeNextPopSample = 1279; popParams.size() = 1

 We are SAMPLING at time 1279



*** Looping through 5.2. Iter = 1404 


  iteration 1404; minNextMutationTime = 1279.38; timeNextPopSample = 1280; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1405 


  iteration 1405; minNextMutationTime = 1290; timeNextPopSample = 1280; popParams.size() = 2

 We are SAMPLING at time 1280



*** Looping through 5.2. Iter = 1406 


  iteration 1406; minNextMutationTime = 1291; timeNextPopSample = 1281; popParams.size() = 1

 We are SAMPLING at time 1281



*** Looping through 5.2. Iter = 1407 


  iteration 1407; minNextMutationTime = 1292; timeNextPopSample = 1282; popParams.size() = 1

 We are SAMPLING at time 1282



*** Looping through 5.2. Iter = 1408 


  iteration 1408; minNextMutationTime = 1293; timeNextPopSample = 1283; popParams.size() = 1

 We are SAMPLING at time 1283



*** Looping through 5.2. Iter = 1409 


  iteration 1409; minNextMutationTime = 1294; timeNextPopSample = 1284; popParams.size() = 1

 We are SAMPLING at time 1284



*** Looping through 5.2. Iter = 1410 


  iteration 1410; minNextMutationTime = 1295; timeNextPopSample = 1285; popParams.size() = 1

 We are SAMPLING at time 1285



*** Looping through 5.2. Iter = 1411 


  iteration 1411; minNextMutationTime = 1296; timeNextPopSample = 1286; popParams.size() = 1

 We are SAMPLING at time 1286



*** Looping through 5.2. Iter = 1412 


  iteration 1412; minNextMutationTime = 1286.98; timeNextPopSample = 1287; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1413 


  iteration 1413; minNextMutationTime = 1297; timeNextPopSample = 1287; popParams.size() = 2

 We are SAMPLING at time 1287



*** Looping through 5.2. Iter = 1414 


  iteration 1414; minNextMutationTime = 1298; timeNextPopSample = 1288; popParams.size() = 2

 We are SAMPLING at time 1288



*** Looping through 5.2. Iter = 1415 


  iteration 1415; minNextMutationTime = 1299; timeNextPopSample = 1289; popParams.size() = 2

 We are SAMPLING at time 1289



*** Looping through 5.2. Iter = 1416 


  iteration 1416; minNextMutationTime = 1289.37; timeNextPopSample = 1290; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1417 


  iteration 1417; minNextMutationTime = 1300; timeNextPopSample = 1290; popParams.size() = 3

 We are SAMPLING at time 1290



*** Looping through 5.2. Iter = 1418 


  iteration 1418; minNextMutationTime = 1301; timeNextPopSample = 1291; popParams.size() = 2

 We are SAMPLING at time 1291



*** Looping through 5.2. Iter = 1419 


  iteration 1419; minNextMutationTime = 1302; timeNextPopSample = 1292; popParams.size() = 2

 We are SAMPLING at time 1292



*** Looping through 5.2. Iter = 1420 


  iteration 1420; minNextMutationTime = 1303; timeNextPopSample = 1293; popParams.size() = 1

 We are SAMPLING at time 1293



*** Looping through 5.2. Iter = 1421 


  iteration 1421; minNextMutationTime = 1304; timeNextPopSample = 1294; popParams.size() = 1

 We are SAMPLING at time 1294



*** Looping through 5.2. Iter = 1422 


  iteration 1422; minNextMutationTime = 1305; timeNextPopSample = 1295; popParams.size() = 1

 We are SAMPLING at time 1295



*** Looping through 5.2. Iter = 1423 


  iteration 1423; minNextMutationTime = 1306; timeNextPopSample = 1296; popParams.size() = 1

 We are SAMPLING at time 1296



*** Looping through 5.2. Iter = 1424 


  iteration 1424; minNextMutationTime = 1307; timeNextPopSample = 1297; popParams.size() = 1

 We are SAMPLING at time 1297



*** Looping through 5.2. Iter = 1425 


  iteration 1425; minNextMutationTime = 1308; timeNextPopSample = 1298; popParams.size() = 1

 We are SAMPLING at time 1298



*** Looping through 5.2. Iter = 1426 


  iteration 1426; minNextMutationTime = 1309; timeNextPopSample = 1299; popParams.size() = 1

 We are SAMPLING at time 1299



*** Looping through 5.2. Iter = 1427 


  iteration 1427; minNextMutationTime = 1310; timeNextPopSample = 1300; popParams.size() = 1

 We are SAMPLING at time 1300



*** Looping through 5.2. Iter = 1428 


  iteration 1428; minNextMutationTime = 1311; timeNextPopSample = 1301; popParams.size() = 1

 We are SAMPLING at time 1301



*** Looping through 5.2. Iter = 1429 


  iteration 1429; minNextMutationTime = 1312; timeNextPopSample = 1302; popParams.size() = 1

 We are SAMPLING at time 1302



*** Looping through 5.2. Iter = 1430 


  iteration 1430; minNextMutationTime = 1313; timeNextPopSample = 1303; popParams.size() = 1

 We are SAMPLING at time 1303



*** Looping through 5.2. Iter = 1431 


  iteration 1431; minNextMutationTime = 1303.66; timeNextPopSample = 1304; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1432 


  iteration 1432; minNextMutationTime = 1314; timeNextPopSample = 1304; popParams.size() = 2

 We are SAMPLING at time 1304



*** Looping through 5.2. Iter = 1433 


  iteration 1433; minNextMutationTime = 1315; timeNextPopSample = 1305; popParams.size() = 2

 We are SAMPLING at time 1305



*** Looping through 5.2. Iter = 1434 


  iteration 1434; minNextMutationTime = 1316; timeNextPopSample = 1306; popParams.size() = 1

 We are SAMPLING at time 1306



*** Looping through 5.2. Iter = 1435 


  iteration 1435; minNextMutationTime = 1317; timeNextPopSample = 1307; popParams.size() = 1

 We are SAMPLING at time 1307



*** Looping through 5.2. Iter = 1436 


  iteration 1436; minNextMutationTime = 1318; timeNextPopSample = 1308; popParams.size() = 1

 We are SAMPLING at time 1308



*** Looping through 5.2. Iter = 1437 


  iteration 1437; minNextMutationTime = 1308.94; timeNextPopSample = 1309; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1438 


  iteration 1438; minNextMutationTime = 1319; timeNextPopSample = 1309; popParams.size() = 2

 We are SAMPLING at time 1309



*** Looping through 5.2. Iter = 1439 


  iteration 1439; minNextMutationTime = 1320; timeNextPopSample = 1310; popParams.size() = 2

 We are SAMPLING at time 1310



*** Looping through 5.2. Iter = 1440 


  iteration 1440; minNextMutationTime = 1321; timeNextPopSample = 1311; popParams.size() = 2

 We are SAMPLING at time 1311



*** Looping through 5.2. Iter = 1441 


  iteration 1441; minNextMutationTime = 1322; timeNextPopSample = 1312; popParams.size() = 1

 We are SAMPLING at time 1312



*** Looping through 5.2. Iter = 1442 


  iteration 1442; minNextMutationTime = 1323; timeNextPopSample = 1313; popParams.size() = 1

 We are SAMPLING at time 1313



*** Looping through 5.2. Iter = 1443 


  iteration 1443; minNextMutationTime = 1324; timeNextPopSample = 1314; popParams.size() = 1

 We are SAMPLING at time 1314



*** Looping through 5.2. Iter = 1444 


  iteration 1444; minNextMutationTime = 1325; timeNextPopSample = 1315; popParams.size() = 1

 We are SAMPLING at time 1315



*** Looping through 5.2. Iter = 1445 


  iteration 1445; minNextMutationTime = 1326; timeNextPopSample = 1316; popParams.size() = 1

 We are SAMPLING at time 1316



*** Looping through 5.2. Iter = 1446 


  iteration 1446; minNextMutationTime = 1316.08; timeNextPopSample = 1317; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1447 


  iteration 1447; minNextMutationTime = 1327; timeNextPopSample = 1317; popParams.size() = 2

 We are SAMPLING at time 1317



*** Looping through 5.2. Iter = 1448 


  iteration 1448; minNextMutationTime = 1328; timeNextPopSample = 1318; popParams.size() = 1

 We are SAMPLING at time 1318



*** Looping through 5.2. Iter = 1449 


  iteration 1449; minNextMutationTime = 1329; timeNextPopSample = 1319; popParams.size() = 1

 We are SAMPLING at time 1319



*** Looping through 5.2. Iter = 1450 


  iteration 1450; minNextMutationTime = 1330; timeNextPopSample = 1320; popParams.size() = 1

 We are SAMPLING at time 1320



*** Looping through 5.2. Iter = 1451 


  iteration 1451; minNextMutationTime = 1331; timeNextPopSample = 1321; popParams.size() = 1

 We are SAMPLING at time 1321



*** Looping through 5.2. Iter = 1452 


  iteration 1452; minNextMutationTime = 1332; timeNextPopSample = 1322; popParams.size() = 1

 We are SAMPLING at time 1322



*** Looping through 5.2. Iter = 1453 


  iteration 1453; minNextMutationTime = 1333; timeNextPopSample = 1323; popParams.size() = 1

 We are SAMPLING at time 1323



*** Looping through 5.2. Iter = 1454 


  iteration 1454; minNextMutationTime = 1323.97; timeNextPopSample = 1324; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1455 


  iteration 1455; minNextMutationTime = 1334; timeNextPopSample = 1324; popParams.size() = 2

 We are SAMPLING at time 1324



*** Looping through 5.2. Iter = 1456 


  iteration 1456; minNextMutationTime = 1335; timeNextPopSample = 1325; popParams.size() = 2

 We are SAMPLING at time 1325



*** Looping through 5.2. Iter = 1457 


  iteration 1457; minNextMutationTime = 1336; timeNextPopSample = 1326; popParams.size() = 1

 We are SAMPLING at time 1326



*** Looping through 5.2. Iter = 1458 


  iteration 1458; minNextMutationTime = 1337; timeNextPopSample = 1327; popParams.size() = 1

 We are SAMPLING at time 1327



*** Looping through 5.2. Iter = 1459 


  iteration 1459; minNextMutationTime = 1338; timeNextPopSample = 1328; popParams.size() = 1

 We are SAMPLING at time 1328



*** Looping through 5.2. Iter = 1460 


  iteration 1460; minNextMutationTime = 1339; timeNextPopSample = 1329; popParams.size() = 1

 We are SAMPLING at time 1329



*** Looping through 5.2. Iter = 1461 


  iteration 1461; minNextMutationTime = 1340; timeNextPopSample = 1330; popParams.size() = 1

 We are SAMPLING at time 1330



*** Looping through 5.2. Iter = 1462 


  iteration 1462; minNextMutationTime = 1341; timeNextPopSample = 1331; popParams.size() = 1

 We are SAMPLING at time 1331



*** Looping through 5.2. Iter = 1463 


  iteration 1463; minNextMutationTime = 1342; timeNextPopSample = 1332; popParams.size() = 1

 We are SAMPLING at time 1332



*** Looping through 5.2. Iter = 1464 


  iteration 1464; minNextMutationTime = 1343; timeNextPopSample = 1333; popParams.size() = 1

 We are SAMPLING at time 1333



*** Looping through 5.2. Iter = 1465 


  iteration 1465; minNextMutationTime = 1344; timeNextPopSample = 1334; popParams.size() = 1

 We are SAMPLING at time 1334



*** Looping through 5.2. Iter = 1466 


  iteration 1466; minNextMutationTime = 1345; timeNextPopSample = 1335; popParams.size() = 1

 We are SAMPLING at time 1335



*** Looping through 5.2. Iter = 1467 


  iteration 1467; minNextMutationTime = 1346; timeNextPopSample = 1336; popParams.size() = 1

 We are SAMPLING at time 1336



*** Looping through 5.2. Iter = 1468 


  iteration 1468; minNextMutationTime = 1347; timeNextPopSample = 1337; popParams.size() = 1

 We are SAMPLING at time 1337



*** Looping through 5.2. Iter = 1469 


  iteration 1469; minNextMutationTime = 1348; timeNextPopSample = 1338; popParams.size() = 1

 We are SAMPLING at time 1338



*** Looping through 5.2. Iter = 1470 


  iteration 1470; minNextMutationTime = 1349; timeNextPopSample = 1339; popParams.size() = 1

 We are SAMPLING at time 1339



*** Looping through 5.2. Iter = 1471 


  iteration 1471; minNextMutationTime = 1350; timeNextPopSample = 1340; popParams.size() = 1

 We are SAMPLING at time 1340



*** Looping through 5.2. Iter = 1472 


  iteration 1472; minNextMutationTime = 1351; timeNextPopSample = 1341; popParams.size() = 1

 We are SAMPLING at time 1341



*** Looping through 5.2. Iter = 1473 


  iteration 1473; minNextMutationTime = 1352; timeNextPopSample = 1342; popParams.size() = 1

 We are SAMPLING at time 1342



*** Looping through 5.2. Iter = 1474 


  iteration 1474; minNextMutationTime = 1353; timeNextPopSample = 1343; popParams.size() = 1

 We are SAMPLING at time 1343



*** Looping through 5.2. Iter = 1475 


  iteration 1475; minNextMutationTime = 1354; timeNextPopSample = 1344; popParams.size() = 1

 We are SAMPLING at time 1344



*** Looping through 5.2. Iter = 1476 


  iteration 1476; minNextMutationTime = 1355; timeNextPopSample = 1345; popParams.size() = 1

 We are SAMPLING at time 1345



*** Looping through 5.2. Iter = 1477 


  iteration 1477; minNextMutationTime = 1356; timeNextPopSample = 1346; popParams.size() = 1

 We are SAMPLING at time 1346



*** Looping through 5.2. Iter = 1478 


  iteration 1478; minNextMutationTime = 1357; timeNextPopSample = 1347; popParams.size() = 1

 We are SAMPLING at time 1347



*** Looping through 5.2. Iter = 1479 


  iteration 1479; minNextMutationTime = 1358; timeNextPopSample = 1348; popParams.size() = 1

 We are SAMPLING at time 1348



*** Looping through 5.2. Iter = 1480 


  iteration 1480; minNextMutationTime = 1359; timeNextPopSample = 1349; popParams.size() = 1

 We are SAMPLING at time 1349



*** Looping through 5.2. Iter = 1481 


  iteration 1481; minNextMutationTime = 1360; timeNextPopSample = 1350; popParams.size() = 1

 We are SAMPLING at time 1350



*** Looping through 5.2. Iter = 1482 


  iteration 1482; minNextMutationTime = 1361; timeNextPopSample = 1351; popParams.size() = 1

 We are SAMPLING at time 1351



*** Looping through 5.2. Iter = 1483 


  iteration 1483; minNextMutationTime = 1362; timeNextPopSample = 1352; popParams.size() = 1

 We are SAMPLING at time 1352



*** Looping through 5.2. Iter = 1484 


  iteration 1484; minNextMutationTime = 1363; timeNextPopSample = 1353; popParams.size() = 1

 We are SAMPLING at time 1353



*** Looping through 5.2. Iter = 1485 


  iteration 1485; minNextMutationTime = 1364; timeNextPopSample = 1354; popParams.size() = 1

 We are SAMPLING at time 1354



*** Looping through 5.2. Iter = 1486 


  iteration 1486; minNextMutationTime = 1354.71; timeNextPopSample = 1355; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1487 


  iteration 1487; minNextMutationTime = 1365; timeNextPopSample = 1355; popParams.size() = 2

 We are SAMPLING at time 1355



*** Looping through 5.2. Iter = 1488 


  iteration 1488; minNextMutationTime = 1366; timeNextPopSample = 1356; popParams.size() = 2

 We are SAMPLING at time 1356



*** Looping through 5.2. Iter = 1489 


  iteration 1489; minNextMutationTime = 1367; timeNextPopSample = 1357; popParams.size() = 1

 We are SAMPLING at time 1357



*** Looping through 5.2. Iter = 1490 


  iteration 1490; minNextMutationTime = 1368; timeNextPopSample = 1358; popParams.size() = 1

 We are SAMPLING at time 1358



*** Looping through 5.2. Iter = 1491 


  iteration 1491; minNextMutationTime = 1369; timeNextPopSample = 1359; popParams.size() = 1

 We are SAMPLING at time 1359



*** Looping through 5.2. Iter = 1492 


  iteration 1492; minNextMutationTime = 1370; timeNextPopSample = 1360; popParams.size() = 1

 We are SAMPLING at time 1360



*** Looping through 5.2. Iter = 1493 


  iteration 1493; minNextMutationTime = 1371; timeNextPopSample = 1361; popParams.size() = 1

 We are SAMPLING at time 1361



*** Looping through 5.2. Iter = 1494 


  iteration 1494; minNextMutationTime = 1372; timeNextPopSample = 1362; popParams.size() = 1

 We are SAMPLING at time 1362



*** Looping through 5.2. Iter = 1495 


  iteration 1495; minNextMutationTime = 1373; timeNextPopSample = 1363; popParams.size() = 1

 We are SAMPLING at time 1363



*** Looping through 5.2. Iter = 1496 


  iteration 1496; minNextMutationTime = 1374; timeNextPopSample = 1364; popParams.size() = 1

 We are SAMPLING at time 1364



*** Looping through 5.2. Iter = 1497 


  iteration 1497; minNextMutationTime = 1375; timeNextPopSample = 1365; popParams.size() = 1

 We are SAMPLING at time 1365



*** Looping through 5.2. Iter = 1498 


  iteration 1498; minNextMutationTime = 1376; timeNextPopSample = 1366; popParams.size() = 1

 We are SAMPLING at time 1366



*** Looping through 5.2. Iter = 1499 


  iteration 1499; minNextMutationTime = 1366.51; timeNextPopSample = 1367; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1500 


  iteration 1500; minNextMutationTime = 1377; timeNextPopSample = 1367; popParams.size() = 2

 We are SAMPLING at time 1367



*** Looping through 5.2. Iter = 1501 


  iteration 1501; minNextMutationTime = 1378; timeNextPopSample = 1368; popParams.size() = 2

 We are SAMPLING at time 1368



*** Looping through 5.2. Iter = 1502 


  iteration 1502; minNextMutationTime = 1379; timeNextPopSample = 1369; popParams.size() = 2

 We are SAMPLING at time 1369



*** Looping through 5.2. Iter = 1503 


  iteration 1503; minNextMutationTime = 1380; timeNextPopSample = 1370; popParams.size() = 2

 We are SAMPLING at time 1370



*** Looping through 5.2. Iter = 1504 


  iteration 1504; minNextMutationTime = 1381; timeNextPopSample = 1371; popParams.size() = 2

 We are SAMPLING at time 1371



*** Looping through 5.2. Iter = 1505 


  iteration 1505; minNextMutationTime = 1382; timeNextPopSample = 1372; popParams.size() = 2

 We are SAMPLING at time 1372



*** Looping through 5.2. Iter = 1506 


  iteration 1506; minNextMutationTime = 1383; timeNextPopSample = 1373; popParams.size() = 2

 We are SAMPLING at time 1373



*** Looping through 5.2. Iter = 1507 


  iteration 1507; minNextMutationTime = 1384; timeNextPopSample = 1374; popParams.size() = 2

 We are SAMPLING at time 1374



*** Looping through 5.2. Iter = 1508 


  iteration 1508; minNextMutationTime = 1385; timeNextPopSample = 1375; popParams.size() = 2

 We are SAMPLING at time 1375



*** Looping through 5.2. Iter = 1509 


  iteration 1509; minNextMutationTime = 1386; timeNextPopSample = 1376; popParams.size() = 2

 We are SAMPLING at time 1376



*** Looping through 5.2. Iter = 1510 


  iteration 1510; minNextMutationTime = 1376.47; timeNextPopSample = 1377; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1511 


  iteration 1511; minNextMutationTime = 1387; timeNextPopSample = 1377; popParams.size() = 3

 We are SAMPLING at time 1377



*** Looping through 5.2. Iter = 1512 


  iteration 1512; minNextMutationTime = 1388; timeNextPopSample = 1378; popParams.size() = 3

 We are SAMPLING at time 1378



*** Looping through 5.2. Iter = 1513 


  iteration 1513; minNextMutationTime = 1389; timeNextPopSample = 1379; popParams.size() = 3

 We are SAMPLING at time 1379



*** Looping through 5.2. Iter = 1514 


  iteration 1514; minNextMutationTime = 1390; timeNextPopSample = 1380; popParams.size() = 2

 We are SAMPLING at time 1380



*** Looping through 5.2. Iter = 1515 


  iteration 1515; minNextMutationTime = 1391; timeNextPopSample = 1381; popParams.size() = 2

 We are SAMPLING at time 1381



*** Looping through 5.2. Iter = 1516 


  iteration 1516; minNextMutationTime = 1392; timeNextPopSample = 1382; popParams.size() = 2

 We are SAMPLING at time 1382



*** Looping through 5.2. Iter = 1517 


  iteration 1517; minNextMutationTime = 1393; timeNextPopSample = 1383; popParams.size() = 2

 We are SAMPLING at time 1383



*** Looping through 5.2. Iter = 1518 


  iteration 1518; minNextMutationTime = 1394; timeNextPopSample = 1384; popParams.size() = 2

 We are SAMPLING at time 1384



*** Looping through 5.2. Iter = 1519 


  iteration 1519; minNextMutationTime = 1384.9; timeNextPopSample = 1385; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1520 


  iteration 1520; minNextMutationTime = 1395; timeNextPopSample = 1385; popParams.size() = 3

 We are SAMPLING at time 1385



*** Looping through 5.2. Iter = 1521 


  iteration 1521; minNextMutationTime = 1396; timeNextPopSample = 1386; popParams.size() = 3

 We are SAMPLING at time 1386



*** Looping through 5.2. Iter = 1522 


  iteration 1522; minNextMutationTime = 1397; timeNextPopSample = 1387; popParams.size() = 2

 We are SAMPLING at time 1387



*** Looping through 5.2. Iter = 1523 


  iteration 1523; minNextMutationTime = 1398; timeNextPopSample = 1388; popParams.size() = 1

 We are SAMPLING at time 1388



*** Looping through 5.2. Iter = 1524 


  iteration 1524; minNextMutationTime = 1399; timeNextPopSample = 1389; popParams.size() = 1

 We are SAMPLING at time 1389



*** Looping through 5.2. Iter = 1525 


  iteration 1525; minNextMutationTime = 1400; timeNextPopSample = 1390; popParams.size() = 1

 We are SAMPLING at time 1390



*** Looping through 5.2. Iter = 1526 


  iteration 1526; minNextMutationTime = 1401; timeNextPopSample = 1391; popParams.size() = 1

 We are SAMPLING at time 1391



*** Looping through 5.2. Iter = 1527 


  iteration 1527; minNextMutationTime = 1402; timeNextPopSample = 1392; popParams.size() = 1

 We are SAMPLING at time 1392



*** Looping through 5.2. Iter = 1528 


  iteration 1528; minNextMutationTime = 1403; timeNextPopSample = 1393; popParams.size() = 1

 We are SAMPLING at time 1393



*** Looping through 5.2. Iter = 1529 


  iteration 1529; minNextMutationTime = 1404; timeNextPopSample = 1394; popParams.size() = 1

 We are SAMPLING at time 1394



*** Looping through 5.2. Iter = 1530 


  iteration 1530; minNextMutationTime = 1405; timeNextPopSample = 1395; popParams.size() = 1

 We are SAMPLING at time 1395



*** Looping through 5.2. Iter = 1531 


  iteration 1531; minNextMutationTime = 1395.37; timeNextPopSample = 1396; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1532 


  iteration 1532; minNextMutationTime = 1406; timeNextPopSample = 1396; popParams.size() = 2

 We are SAMPLING at time 1396



*** Looping through 5.2. Iter = 1533 


  iteration 1533; minNextMutationTime = 1396.17; timeNextPopSample = 1397; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1534 


  iteration 1534; minNextMutationTime = 1407; timeNextPopSample = 1397; popParams.size() = 2

 We are SAMPLING at time 1397



*** Looping through 5.2. Iter = 1535 


  iteration 1535; minNextMutationTime = 1408; timeNextPopSample = 1398; popParams.size() = 2

 We are SAMPLING at time 1398



*** Looping through 5.2. Iter = 1536 


  iteration 1536; minNextMutationTime = 1409; timeNextPopSample = 1399; popParams.size() = 1

 We are SAMPLING at time 1399



*** Looping through 5.2. Iter = 1537 


  iteration 1537; minNextMutationTime = 1410; timeNextPopSample = 1400; popParams.size() = 1

 We are SAMPLING at time 1400



*** Looping through 5.2. Iter = 1538 


  iteration 1538; minNextMutationTime = 1411; timeNextPopSample = 1401; popParams.size() = 1

 We are SAMPLING at time 1401



*** Looping through 5.2. Iter = 1539 


  iteration 1539; minNextMutationTime = 1412; timeNextPopSample = 1402; popParams.size() = 1

 We are SAMPLING at time 1402



*** Looping through 5.2. Iter = 1540 


  iteration 1540; minNextMutationTime = 1413; timeNextPopSample = 1403; popParams.size() = 1

 We are SAMPLING at time 1403



*** Looping through 5.2. Iter = 1541 


  iteration 1541; minNextMutationTime = 1414; timeNextPopSample = 1404; popParams.size() = 1

 We are SAMPLING at time 1404



*** Looping through 5.2. Iter = 1542 


  iteration 1542; minNextMutationTime = 1415; timeNextPopSample = 1405; popParams.size() = 1

 We are SAMPLING at time 1405



*** Looping through 5.2. Iter = 1543 


  iteration 1543; minNextMutationTime = 1416; timeNextPopSample = 1406; popParams.size() = 1

 We are SAMPLING at time 1406



*** Looping through 5.2. Iter = 1544 


  iteration 1544; minNextMutationTime = 1417; timeNextPopSample = 1407; popParams.size() = 1

 We are SAMPLING at time 1407



*** Looping through 5.2. Iter = 1545 


  iteration 1545; minNextMutationTime = 1407.73; timeNextPopSample = 1408; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1546 


  iteration 1546; minNextMutationTime = 1418; timeNextPopSample = 1408; popParams.size() = 2

 We are SAMPLING at time 1408



*** Looping through 5.2. Iter = 1547 


  iteration 1547; minNextMutationTime = 1419; timeNextPopSample = 1409; popParams.size() = 2

 We are SAMPLING at time 1409



*** Looping through 5.2. Iter = 1548 


  iteration 1548; minNextMutationTime = 1420; timeNextPopSample = 1410; popParams.size() = 1

 We are SAMPLING at time 1410



*** Looping through 5.2. Iter = 1549 


  iteration 1549; minNextMutationTime = 1421; timeNextPopSample = 1411; popParams.size() = 1

 We are SAMPLING at time 1411



*** Looping through 5.2. Iter = 1550 


  iteration 1550; minNextMutationTime = 1411.53; timeNextPopSample = 1412; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1551 


  iteration 1551; minNextMutationTime = 1422; timeNextPopSample = 1412; popParams.size() = 2

 We are SAMPLING at time 1412



*** Looping through 5.2. Iter = 1552 


  iteration 1552; minNextMutationTime = 1423; timeNextPopSample = 1413; popParams.size() = 2

 We are SAMPLING at time 1413



*** Looping through 5.2. Iter = 1553 


  iteration 1553; minNextMutationTime = 1424; timeNextPopSample = 1414; popParams.size() = 1

 We are SAMPLING at time 1414



*** Looping through 5.2. Iter = 1554 


  iteration 1554; minNextMutationTime = 1425; timeNextPopSample = 1415; popParams.size() = 1

 We are SAMPLING at time 1415



*** Looping through 5.2. Iter = 1555 


  iteration 1555; minNextMutationTime = 1426; timeNextPopSample = 1416; popParams.size() = 1

 We are SAMPLING at time 1416



*** Looping through 5.2. Iter = 1556 


  iteration 1556; minNextMutationTime = 1427; timeNextPopSample = 1417; popParams.size() = 1

 We are SAMPLING at time 1417



*** Looping through 5.2. Iter = 1557 


  iteration 1557; minNextMutationTime = 1428; timeNextPopSample = 1418; popParams.size() = 1

 We are SAMPLING at time 1418



*** Looping through 5.2. Iter = 1558 


  iteration 1558; minNextMutationTime = 1429; timeNextPopSample = 1419; popParams.size() = 1

 We are SAMPLING at time 1419



*** Looping through 5.2. Iter = 1559 


  iteration 1559; minNextMutationTime = 1430; timeNextPopSample = 1420; popParams.size() = 1

 We are SAMPLING at time 1420



*** Looping through 5.2. Iter = 1560 


  iteration 1560; minNextMutationTime = 1431; timeNextPopSample = 1421; popParams.size() = 1

 We are SAMPLING at time 1421



*** Looping through 5.2. Iter = 1561 


  iteration 1561; minNextMutationTime = 1432; timeNextPopSample = 1422; popParams.size() = 1

 We are SAMPLING at time 1422



*** Looping through 5.2. Iter = 1562 


  iteration 1562; minNextMutationTime = 1433; timeNextPopSample = 1423; popParams.size() = 1

 We are SAMPLING at time 1423



*** Looping through 5.2. Iter = 1563 


  iteration 1563; minNextMutationTime = 1434; timeNextPopSample = 1424; popParams.size() = 1

 We are SAMPLING at time 1424



*** Looping through 5.2. Iter = 1564 


  iteration 1564; minNextMutationTime = 1435; timeNextPopSample = 1425; popParams.size() = 1

 We are SAMPLING at time 1425



*** Looping through 5.2. Iter = 1565 


  iteration 1565; minNextMutationTime = 1436; timeNextPopSample = 1426; popParams.size() = 1

 We are SAMPLING at time 1426



*** Looping through 5.2. Iter = 1566 


  iteration 1566; minNextMutationTime = 1437; timeNextPopSample = 1427; popParams.size() = 1

 We are SAMPLING at time 1427



*** Looping through 5.2. Iter = 1567 


  iteration 1567; minNextMutationTime = 1438; timeNextPopSample = 1428; popParams.size() = 1

 We are SAMPLING at time 1428



*** Looping through 5.2. Iter = 1568 


  iteration 1568; minNextMutationTime = 1439; timeNextPopSample = 1429; popParams.size() = 1

 We are SAMPLING at time 1429



*** Looping through 5.2. Iter = 1569 


  iteration 1569; minNextMutationTime = 1440; timeNextPopSample = 1430; popParams.size() = 1

 We are SAMPLING at time 1430



*** Looping through 5.2. Iter = 1570 


  iteration 1570; minNextMutationTime = 1430.8; timeNextPopSample = 1431; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1571 


  iteration 1571; minNextMutationTime = 1441; timeNextPopSample = 1431; popParams.size() = 2

 We are SAMPLING at time 1431



*** Looping through 5.2. Iter = 1572 


  iteration 1572; minNextMutationTime = 1442; timeNextPopSample = 1432; popParams.size() = 2

 We are SAMPLING at time 1432



*** Looping through 5.2. Iter = 1573 


  iteration 1573; minNextMutationTime = 1443; timeNextPopSample = 1433; popParams.size() = 2

 We are SAMPLING at time 1433



*** Looping through 5.2. Iter = 1574 


  iteration 1574; minNextMutationTime = 1444; timeNextPopSample = 1434; popParams.size() = 2

 We are SAMPLING at time 1434



*** Looping through 5.2. Iter = 1575 


  iteration 1575; minNextMutationTime = 1445; timeNextPopSample = 1435; popParams.size() = 2

 We are SAMPLING at time 1435



*** Looping through 5.2. Iter = 1576 


  iteration 1576; minNextMutationTime = 1446; timeNextPopSample = 1436; popParams.size() = 2

 We are SAMPLING at time 1436



*** Looping through 5.2. Iter = 1577 


  iteration 1577; minNextMutationTime = 1436.46; timeNextPopSample = 1437; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1578 


  iteration 1578; minNextMutationTime = 1447; timeNextPopSample = 1437; popParams.size() = 3

 We are SAMPLING at time 1437



*** Looping through 5.2. Iter = 1579 


  iteration 1579; minNextMutationTime = 1448; timeNextPopSample = 1438; popParams.size() = 3

 We are SAMPLING at time 1438



*** Looping through 5.2. Iter = 1580 


  iteration 1580; minNextMutationTime = 1449; timeNextPopSample = 1439; popParams.size() = 3

 We are SAMPLING at time 1439



*** Looping through 5.2. Iter = 1581 


  iteration 1581; minNextMutationTime = 1450; timeNextPopSample = 1440; popParams.size() = 3

 We are SAMPLING at time 1440



*** Looping through 5.2. Iter = 1582 


  iteration 1582; minNextMutationTime = 1451; timeNextPopSample = 1441; popParams.size() = 3

 We are SAMPLING at time 1441



*** Looping through 5.2. Iter = 1583 


  iteration 1583; minNextMutationTime = 1452; timeNextPopSample = 1442; popParams.size() = 3

 We are SAMPLING at time 1442



*** Looping through 5.2. Iter = 1584 


  iteration 1584; minNextMutationTime = 1453; timeNextPopSample = 1443; popParams.size() = 3

 We are SAMPLING at time 1443



*** Looping through 5.2. Iter = 1585 


  iteration 1585; minNextMutationTime = 1454; timeNextPopSample = 1444; popParams.size() = 2

 We are SAMPLING at time 1444



*** Looping through 5.2. Iter = 1586 


  iteration 1586; minNextMutationTime = 1455; timeNextPopSample = 1445; popParams.size() = 2

 We are SAMPLING at time 1445



*** Looping through 5.2. Iter = 1587 


  iteration 1587; minNextMutationTime = 1456; timeNextPopSample = 1446; popParams.size() = 1

 We are SAMPLING at time 1446



*** Looping through 5.2. Iter = 1588 


  iteration 1588; minNextMutationTime = 1446.57; timeNextPopSample = 1447; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1589 


  iteration 1589; minNextMutationTime = 1457; timeNextPopSample = 1447; popParams.size() = 2

 We are SAMPLING at time 1447



*** Looping through 5.2. Iter = 1590 


  iteration 1590; minNextMutationTime = 1458; timeNextPopSample = 1448; popParams.size() = 1

 We are SAMPLING at time 1448



*** Looping through 5.2. Iter = 1591 


  iteration 1591; minNextMutationTime = 1459; timeNextPopSample = 1449; popParams.size() = 1

 We are SAMPLING at time 1449



*** Looping through 5.2. Iter = 1592 


  iteration 1592; minNextMutationTime = 1460; timeNextPopSample = 1450; popParams.size() = 1

 We are SAMPLING at time 1450



*** Looping through 5.2. Iter = 1593 


  iteration 1593; minNextMutationTime = 1461; timeNextPopSample = 1451; popParams.size() = 1

 We are SAMPLING at time 1451



*** Looping through 5.2. Iter = 1594 


  iteration 1594; minNextMutationTime = 1462; timeNextPopSample = 1452; popParams.size() = 1

 We are SAMPLING at time 1452



*** Looping through 5.2. Iter = 1595 


  iteration 1595; minNextMutationTime = 1463; timeNextPopSample = 1453; popParams.size() = 1

 We are SAMPLING at time 1453



*** Looping through 5.2. Iter = 1596 


  iteration 1596; minNextMutationTime = 1464; timeNextPopSample = 1454; popParams.size() = 1

 We are SAMPLING at time 1454



*** Looping through 5.2. Iter = 1597 


  iteration 1597; minNextMutationTime = 1465; timeNextPopSample = 1455; popParams.size() = 1

 We are SAMPLING at time 1455



*** Looping through 5.2. Iter = 1598 


  iteration 1598; minNextMutationTime = 1466; timeNextPopSample = 1456; popParams.size() = 1

 We are SAMPLING at time 1456



*** Looping through 5.2. Iter = 1599 


  iteration 1599; minNextMutationTime = 1467; timeNextPopSample = 1457; popParams.size() = 1

 We are SAMPLING at time 1457



*** Looping through 5.2. Iter = 1600 


  iteration 1600; minNextMutationTime = 1468; timeNextPopSample = 1458; popParams.size() = 1

 We are SAMPLING at time 1458



*** Looping through 5.2. Iter = 1601 


  iteration 1601; minNextMutationTime = 1458.83; timeNextPopSample = 1459; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1602 


  iteration 1602; minNextMutationTime = 1469; timeNextPopSample = 1459; popParams.size() = 2

 We are SAMPLING at time 1459



*** Looping through 5.2. Iter = 1603 


  iteration 1603; minNextMutationTime = 1470; timeNextPopSample = 1460; popParams.size() = 2

 We are SAMPLING at time 1460



*** Looping through 5.2. Iter = 1604 


  iteration 1604; minNextMutationTime = 1471; timeNextPopSample = 1461; popParams.size() = 1

 We are SAMPLING at time 1461



*** Looping through 5.2. Iter = 1605 


  iteration 1605; minNextMutationTime = 1472; timeNextPopSample = 1462; popParams.size() = 1

 We are SAMPLING at time 1462



*** Looping through 5.2. Iter = 1606 


  iteration 1606; minNextMutationTime = 1473; timeNextPopSample = 1463; popParams.size() = 1

 We are SAMPLING at time 1463



*** Looping through 5.2. Iter = 1607 


  iteration 1607; minNextMutationTime = 1474; timeNextPopSample = 1464; popParams.size() = 1

 We are SAMPLING at time 1464



*** Looping through 5.2. Iter = 1608 


  iteration 1608; minNextMutationTime = 1475; timeNextPopSample = 1465; popParams.size() = 1

 We are SAMPLING at time 1465



*** Looping through 5.2. Iter = 1609 


  iteration 1609; minNextMutationTime = 1476; timeNextPopSample = 1466; popParams.size() = 1

 We are SAMPLING at time 1466



*** Looping through 5.2. Iter = 1610 


  iteration 1610; minNextMutationTime = 1466.22; timeNextPopSample = 1467; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1611 


  iteration 1611; minNextMutationTime = 1477; timeNextPopSample = 1467; popParams.size() = 2

 We are SAMPLING at time 1467



*** Looping through 5.2. Iter = 1612 


  iteration 1612; minNextMutationTime = 1467.56; timeNextPopSample = 1468; popParams.size() = 2

     Mutated to existing species 1 (Genotype = 0000000000000000000000000000000000000000000000000000000000001000; sp_id = 8)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 8)
 New popSize = 1



*** Looping through 5.2. Iter = 1613 


  iteration 1613; minNextMutationTime = 1478; timeNextPopSample = 1468; popParams.size() = 2

 We are SAMPLING at time 1468



*** Looping through 5.2. Iter = 1614 


  iteration 1614; minNextMutationTime = 1479; timeNextPopSample = 1469; popParams.size() = 2

 We are SAMPLING at time 1469



*** Looping through 5.2. Iter = 1615 


  iteration 1615; minNextMutationTime = 1480; timeNextPopSample = 1470; popParams.size() = 2

 We are SAMPLING at time 1470



*** Looping through 5.2. Iter = 1616 


  iteration 1616; minNextMutationTime = 1481; timeNextPopSample = 1471; popParams.size() = 2

 We are SAMPLING at time 1471



*** Looping through 5.2. Iter = 1617 


  iteration 1617; minNextMutationTime = 1482; timeNextPopSample = 1472; popParams.size() = 2

 We are SAMPLING at time 1472



*** Looping through 5.2. Iter = 1618 


  iteration 1618; minNextMutationTime = 1483; timeNextPopSample = 1473; popParams.size() = 2

 We are SAMPLING at time 1473



*** Looping through 5.2. Iter = 1619 


  iteration 1619; minNextMutationTime = 1484; timeNextPopSample = 1474; popParams.size() = 2

 We are SAMPLING at time 1474



*** Looping through 5.2. Iter = 1620 


  iteration 1620; minNextMutationTime = 1485; timeNextPopSample = 1475; popParams.size() = 2

 We are SAMPLING at time 1475



*** Looping through 5.2. Iter = 1621 


  iteration 1621; minNextMutationTime = 1486; timeNextPopSample = 1476; popParams.size() = 2

 We are SAMPLING at time 1476



*** Looping through 5.2. Iter = 1622 


  iteration 1622; minNextMutationTime = 1487; timeNextPopSample = 1477; popParams.size() = 2

 We are SAMPLING at time 1477



*** Looping through 5.2. Iter = 1623 


  iteration 1623; minNextMutationTime = 1488; timeNextPopSample = 1478; popParams.size() = 2

 We are SAMPLING at time 1478



*** Looping through 5.2. Iter = 1624 


  iteration 1624; minNextMutationTime = 1489; timeNextPopSample = 1479; popParams.size() = 2

 We are SAMPLING at time 1479



*** Looping through 5.2. Iter = 1625 


  iteration 1625; minNextMutationTime = 1490; timeNextPopSample = 1480; popParams.size() = 2

 We are SAMPLING at time 1480



*** Looping through 5.2. Iter = 1626 


  iteration 1626; minNextMutationTime = 1491; timeNextPopSample = 1481; popParams.size() = 1

 We are SAMPLING at time 1481



*** Looping through 5.2. Iter = 1627 


  iteration 1627; minNextMutationTime = 1492; timeNextPopSample = 1482; popParams.size() = 1

 We are SAMPLING at time 1482



*** Looping through 5.2. Iter = 1628 


  iteration 1628; minNextMutationTime = 1493; timeNextPopSample = 1483; popParams.size() = 1

 We are SAMPLING at time 1483



*** Looping through 5.2. Iter = 1629 


  iteration 1629; minNextMutationTime = 1494; timeNextPopSample = 1484; popParams.size() = 1

 We are SAMPLING at time 1484



*** Looping through 5.2. Iter = 1630 


  iteration 1630; minNextMutationTime = 1495; timeNextPopSample = 1485; popParams.size() = 1

 We are SAMPLING at time 1485



*** Looping through 5.2. Iter = 1631 


  iteration 1631; minNextMutationTime = 1496; timeNextPopSample = 1486; popParams.size() = 1

 We are SAMPLING at time 1486



*** Looping through 5.2. Iter = 1632 


  iteration 1632; minNextMutationTime = 1497; timeNextPopSample = 1487; popParams.size() = 1

 We are SAMPLING at time 1487



*** Looping through 5.2. Iter = 1633 


  iteration 1633; minNextMutationTime = 1498; timeNextPopSample = 1488; popParams.size() = 1

 We are SAMPLING at time 1488



*** Looping through 5.2. Iter = 1634 


  iteration 1634; minNextMutationTime = 1499; timeNextPopSample = 1489; popParams.size() = 1

 We are SAMPLING at time 1489



*** Looping through 5.2. Iter = 1635 


  iteration 1635; minNextMutationTime = 1500; timeNextPopSample = 1490; popParams.size() = 1

 We are SAMPLING at time 1490



*** Looping through 5.2. Iter = 1636 


  iteration 1636; minNextMutationTime = 1490.15; timeNextPopSample = 1491; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1637 


  iteration 1637; minNextMutationTime = 1490.23; timeNextPopSample = 1491; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1638 


  iteration 1638; minNextMutationTime = 1501; timeNextPopSample = 1491; popParams.size() = 3

 We are SAMPLING at time 1491



*** Looping through 5.2. Iter = 1639 


  iteration 1639; minNextMutationTime = 1491.05; timeNextPopSample = 1492; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1640 


  iteration 1640; minNextMutationTime = 1491.6; timeNextPopSample = 1492; popParams.size() = 3

     Mutated to existing species 1 (Genotype = 0000000000000000000000000000000000000000000000000000000001000000; sp_id = 64)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 64)
 New popSize = 2



*** Looping through 5.2. Iter = 1641 


  iteration 1641; minNextMutationTime = 1502; timeNextPopSample = 1492; popParams.size() = 3

 We are SAMPLING at time 1492



*** Looping through 5.2. Iter = 1642 


  iteration 1642; minNextMutationTime = 1503; timeNextPopSample = 1493; popParams.size() = 2

 We are SAMPLING at time 1493



*** Looping through 5.2. Iter = 1643 


  iteration 1643; minNextMutationTime = 1504; timeNextPopSample = 1494; popParams.size() = 1

 We are SAMPLING at time 1494



*** Looping through 5.2. Iter = 1644 


  iteration 1644; minNextMutationTime = 1494.09; timeNextPopSample = 1495; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1645 


  iteration 1645; minNextMutationTime = 1505; timeNextPopSample = 1495; popParams.size() = 2

 We are SAMPLING at time 1495



*** Looping through 5.2. Iter = 1646 


  iteration 1646; minNextMutationTime = 1506; timeNextPopSample = 1496; popParams.size() = 1

 We are SAMPLING at time 1496



*** Looping through 5.2. Iter = 1647 


  iteration 1647; minNextMutationTime = 1507; timeNextPopSample = 1497; popParams.size() = 1

 We are SAMPLING at time 1497



*** Looping through 5.2. Iter = 1648 


  iteration 1648; minNextMutationTime = 1508; timeNextPopSample = 1498; popParams.size() = 1

 We are SAMPLING at time 1498



*** Looping through 5.2. Iter = 1649 


  iteration 1649; minNextMutationTime = 1509; timeNextPopSample = 1499; popParams.size() = 1

 We are SAMPLING at time 1499



*** Looping through 5.2. Iter = 1650 


  iteration 1650; minNextMutationTime = 1510; timeNextPopSample = 1500; popParams.size() = 1

 We are SAMPLING at time 1500



*** Looping through 5.2. Iter = 1651 


  iteration 1651; minNextMutationTime = 1511; timeNextPopSample = 1501; popParams.size() = 1

 We are SAMPLING at time 1501



*** Looping through 5.2. Iter = 1652 


  iteration 1652; minNextMutationTime = 1512; timeNextPopSample = 1502; popParams.size() = 1

 We are SAMPLING at time 1502



*** Looping through 5.2. Iter = 1653 


  iteration 1653; minNextMutationTime = 1513; timeNextPopSample = 1503; popParams.size() = 1

 We are SAMPLING at time 1503



*** Looping through 5.2. Iter = 1654 


  iteration 1654; minNextMutationTime = 1503.82; timeNextPopSample = 1504; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1655 


  iteration 1655; minNextMutationTime = 1514; timeNextPopSample = 1504; popParams.size() = 2

 We are SAMPLING at time 1504



*** Looping through 5.2. Iter = 1656 


  iteration 1656; minNextMutationTime = 1515; timeNextPopSample = 1505; popParams.size() = 2

 We are SAMPLING at time 1505



*** Looping through 5.2. Iter = 1657 


  iteration 1657; minNextMutationTime = 1516; timeNextPopSample = 1506; popParams.size() = 1

 We are SAMPLING at time 1506



*** Looping through 5.2. Iter = 1658 


  iteration 1658; minNextMutationTime = 1517; timeNextPopSample = 1507; popParams.size() = 1

 We are SAMPLING at time 1507



*** Looping through 5.2. Iter = 1659 


  iteration 1659; minNextMutationTime = 1518; timeNextPopSample = 1508; popParams.size() = 1

 We are SAMPLING at time 1508



*** Looping through 5.2. Iter = 1660 


  iteration 1660; minNextMutationTime = 1519; timeNextPopSample = 1509; popParams.size() = 1

 We are SAMPLING at time 1509



*** Looping through 5.2. Iter = 1661 


  iteration 1661; minNextMutationTime = 1520; timeNextPopSample = 1510; popParams.size() = 1

 We are SAMPLING at time 1510



*** Looping through 5.2. Iter = 1662 


  iteration 1662; minNextMutationTime = 1521; timeNextPopSample = 1511; popParams.size() = 1

 We are SAMPLING at time 1511



*** Looping through 5.2. Iter = 1663 


  iteration 1663; minNextMutationTime = 1522; timeNextPopSample = 1512; popParams.size() = 1

 We are SAMPLING at time 1512



*** Looping through 5.2. Iter = 1664 


  iteration 1664; minNextMutationTime = 1523; timeNextPopSample = 1513; popParams.size() = 1

 We are SAMPLING at time 1513



*** Looping through 5.2. Iter = 1665 


  iteration 1665; minNextMutationTime = 1524; timeNextPopSample = 1514; popParams.size() = 1

 We are SAMPLING at time 1514



*** Looping through 5.2. Iter = 1666 


  iteration 1666; minNextMutationTime = 1525; timeNextPopSample = 1515; popParams.size() = 1

 We are SAMPLING at time 1515



*** Looping through 5.2. Iter = 1667 


  iteration 1667; minNextMutationTime = 1526; timeNextPopSample = 1516; popParams.size() = 1

 We are SAMPLING at time 1516



*** Looping through 5.2. Iter = 1668 


  iteration 1668; minNextMutationTime = 1516.52; timeNextPopSample = 1517; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1669 


  iteration 1669; minNextMutationTime = 1527; timeNextPopSample = 1517; popParams.size() = 2

 We are SAMPLING at time 1517



*** Looping through 5.2. Iter = 1670 


  iteration 1670; minNextMutationTime = 1528; timeNextPopSample = 1518; popParams.size() = 2

 We are SAMPLING at time 1518



*** Looping through 5.2. Iter = 1671 


  iteration 1671; minNextMutationTime = 1529; timeNextPopSample = 1519; popParams.size() = 2

 We are SAMPLING at time 1519



*** Looping through 5.2. Iter = 1672 


  iteration 1672; minNextMutationTime = 1530; timeNextPopSample = 1520; popParams.size() = 2

 We are SAMPLING at time 1520



*** Looping through 5.2. Iter = 1673 


  iteration 1673; minNextMutationTime = 1531; timeNextPopSample = 1521; popParams.size() = 2

 We are SAMPLING at time 1521



*** Looping through 5.2. Iter = 1674 


  iteration 1674; minNextMutationTime = 1532; timeNextPopSample = 1522; popParams.size() = 2

 We are SAMPLING at time 1522



*** Looping through 5.2. Iter = 1675 


  iteration 1675; minNextMutationTime = 1533; timeNextPopSample = 1523; popParams.size() = 2

 We are SAMPLING at time 1523



*** Looping through 5.2. Iter = 1676 


  iteration 1676; minNextMutationTime = 1534; timeNextPopSample = 1524; popParams.size() = 2

 We are SAMPLING at time 1524



*** Looping through 5.2. Iter = 1677 


  iteration 1677; minNextMutationTime = 1535; timeNextPopSample = 1525; popParams.size() = 2

 We are SAMPLING at time 1525



*** Looping through 5.2. Iter = 1678 


  iteration 1678; minNextMutationTime = 1536; timeNextPopSample = 1526; popParams.size() = 2

 We are SAMPLING at time 1526



*** Looping through 5.2. Iter = 1679 


  iteration 1679; minNextMutationTime = 1526.12; timeNextPopSample = 1527; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1680 


  iteration 1680; minNextMutationTime = 1537; timeNextPopSample = 1527; popParams.size() = 3

 We are SAMPLING at time 1527



*** Looping through 5.2. Iter = 1681 


  iteration 1681; minNextMutationTime = 1538; timeNextPopSample = 1528; popParams.size() = 3

 We are SAMPLING at time 1528



*** Looping through 5.2. Iter = 1682 


  iteration 1682; minNextMutationTime = 1539; timeNextPopSample = 1529; popParams.size() = 3

 We are SAMPLING at time 1529



*** Looping through 5.2. Iter = 1683 


  iteration 1683; minNextMutationTime = 1540; timeNextPopSample = 1530; popParams.size() = 3

 We are SAMPLING at time 1530



*** Looping through 5.2. Iter = 1684 


  iteration 1684; minNextMutationTime = 1541; timeNextPopSample = 1531; popParams.size() = 2

 We are SAMPLING at time 1531



*** Looping through 5.2. Iter = 1685 


  iteration 1685; minNextMutationTime = 1542; timeNextPopSample = 1532; popParams.size() = 2

 We are SAMPLING at time 1532



*** Looping through 5.2. Iter = 1686 


  iteration 1686; minNextMutationTime = 1543; timeNextPopSample = 1533; popParams.size() = 2

 We are SAMPLING at time 1533



*** Looping through 5.2. Iter = 1687 


  iteration 1687; minNextMutationTime = 1544; timeNextPopSample = 1534; popParams.size() = 2

 We are SAMPLING at time 1534



*** Looping through 5.2. Iter = 1688 


  iteration 1688; minNextMutationTime = 1545; timeNextPopSample = 1535; popParams.size() = 2

 We are SAMPLING at time 1535



*** Looping through 5.2. Iter = 1689 


  iteration 1689; minNextMutationTime = 1546; timeNextPopSample = 1536; popParams.size() = 2

 We are SAMPLING at time 1536



*** Looping through 5.2. Iter = 1690 


  iteration 1690; minNextMutationTime = 1547; timeNextPopSample = 1537; popParams.size() = 2

 We are SAMPLING at time 1537



*** Looping through 5.2. Iter = 1691 


  iteration 1691; minNextMutationTime = 1548; timeNextPopSample = 1538; popParams.size() = 2

 We are SAMPLING at time 1538



*** Looping through 5.2. Iter = 1692 


  iteration 1692; minNextMutationTime = 1549; timeNextPopSample = 1539; popParams.size() = 2

 We are SAMPLING at time 1539



*** Looping through 5.2. Iter = 1693 


  iteration 1693; minNextMutationTime = 1550; timeNextPopSample = 1540; popParams.size() = 2

 We are SAMPLING at time 1540



*** Looping through 5.2. Iter = 1694 


  iteration 1694; minNextMutationTime = 1551; timeNextPopSample = 1541; popParams.size() = 2

 We are SAMPLING at time 1541



*** Looping through 5.2. Iter = 1695 


  iteration 1695; minNextMutationTime = 1552; timeNextPopSample = 1542; popParams.size() = 2

 We are SAMPLING at time 1542



*** Looping through 5.2. Iter = 1696 


  iteration 1696; minNextMutationTime = 1553; timeNextPopSample = 1543; popParams.size() = 2

 We are SAMPLING at time 1543



*** Looping through 5.2. Iter = 1697 


  iteration 1697; minNextMutationTime = 1543.3; timeNextPopSample = 1544; popParams.size() = 2

     Mutated to existing species 1 (Genotype = 0000000000000000000000000000000000000000000000000000000001000000; sp_id = 64)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 64)
 New popSize = 23



*** Looping through 5.2. Iter = 1698 


  iteration 1698; minNextMutationTime = 1554; timeNextPopSample = 1544; popParams.size() = 2

 We are SAMPLING at time 1544



*** Looping through 5.2. Iter = 1699 


  iteration 1699; minNextMutationTime = 1555; timeNextPopSample = 1545; popParams.size() = 2

 We are SAMPLING at time 1545



*** Looping through 5.2. Iter = 1700 


  iteration 1700; minNextMutationTime = 1556; timeNextPopSample = 1546; popParams.size() = 2

 We are SAMPLING at time 1546



*** Looping through 5.2. Iter = 1701 


  iteration 1701; minNextMutationTime = 1557; timeNextPopSample = 1547; popParams.size() = 2

 We are SAMPLING at time 1547



*** Looping through 5.2. Iter = 1702 


  iteration 1702; minNextMutationTime = 1558; timeNextPopSample = 1548; popParams.size() = 2

 We are SAMPLING at time 1548



*** Looping through 5.2. Iter = 1703 


  iteration 1703; minNextMutationTime = 1559; timeNextPopSample = 1549; popParams.size() = 2

 We are SAMPLING at time 1549



*** Looping through 5.2. Iter = 1704 


  iteration 1704; minNextMutationTime = 1560; timeNextPopSample = 1550; popParams.size() = 2

 We are SAMPLING at time 1550



*** Looping through 5.2. Iter = 1705 


  iteration 1705; minNextMutationTime = 1561; timeNextPopSample = 1551; popParams.size() = 2

 We are SAMPLING at time 1551



*** Looping through 5.2. Iter = 1706 


  iteration 1706; minNextMutationTime = 1562; timeNextPopSample = 1552; popParams.size() = 2

 We are SAMPLING at time 1552



*** Looping through 5.2. Iter = 1707 


  iteration 1707; minNextMutationTime = 1563; timeNextPopSample = 1553; popParams.size() = 2

 We are SAMPLING at time 1553



*** Looping through 5.2. Iter = 1708 


  iteration 1708; minNextMutationTime = 1564; timeNextPopSample = 1554; popParams.size() = 2

 We are SAMPLING at time 1554



*** Looping through 5.2. Iter = 1709 


  iteration 1709; minNextMutationTime = 1565; timeNextPopSample = 1555; popParams.size() = 2

 We are SAMPLING at time 1555



*** Looping through 5.2. Iter = 1710 


  iteration 1710; minNextMutationTime = 1566; timeNextPopSample = 1556; popParams.size() = 2

 We are SAMPLING at time 1556



*** Looping through 5.2. Iter = 1711 


  iteration 1711; minNextMutationTime = 1556.18; timeNextPopSample = 1557; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1712 


  iteration 1712; minNextMutationTime = 1567; timeNextPopSample = 1557; popParams.size() = 3

 We are SAMPLING at time 1557



*** Looping through 5.2. Iter = 1713 


  iteration 1713; minNextMutationTime = 1568; timeNextPopSample = 1558; popParams.size() = 2

 We are SAMPLING at time 1558



*** Looping through 5.2. Iter = 1714 


  iteration 1714; minNextMutationTime = 1569; timeNextPopSample = 1559; popParams.size() = 2

 We are SAMPLING at time 1559



*** Looping through 5.2. Iter = 1715 


  iteration 1715; minNextMutationTime = 1570; timeNextPopSample = 1560; popParams.size() = 2

 We are SAMPLING at time 1560



*** Looping through 5.2. Iter = 1716 


  iteration 1716; minNextMutationTime = 1571; timeNextPopSample = 1561; popParams.size() = 1

 We are SAMPLING at time 1561



*** Looping through 5.2. Iter = 1717 


  iteration 1717; minNextMutationTime = 1572; timeNextPopSample = 1562; popParams.size() = 1

 We are SAMPLING at time 1562



*** Looping through 5.2. Iter = 1718 


  iteration 1718; minNextMutationTime = 1573; timeNextPopSample = 1563; popParams.size() = 1

 We are SAMPLING at time 1563



*** Looping through 5.2. Iter = 1719 


  iteration 1719; minNextMutationTime = 1574; timeNextPopSample = 1564; popParams.size() = 1

 We are SAMPLING at time 1564



*** Looping through 5.2. Iter = 1720 


  iteration 1720; minNextMutationTime = 1575; timeNextPopSample = 1565; popParams.size() = 1

 We are SAMPLING at time 1565



*** Looping through 5.2. Iter = 1721 


  iteration 1721; minNextMutationTime = 1576; timeNextPopSample = 1566; popParams.size() = 1

 We are SAMPLING at time 1566



*** Looping through 5.2. Iter = 1722 


  iteration 1722; minNextMutationTime = 1566.34; timeNextPopSample = 1567; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1723 


  iteration 1723; minNextMutationTime = 1577; timeNextPopSample = 1567; popParams.size() = 2

 We are SAMPLING at time 1567



*** Looping through 5.2. Iter = 1724 


  iteration 1724; minNextMutationTime = 1578; timeNextPopSample = 1568; popParams.size() = 2

 We are SAMPLING at time 1568



*** Looping through 5.2. Iter = 1725 


  iteration 1725; minNextMutationTime = 1579; timeNextPopSample = 1569; popParams.size() = 1

 We are SAMPLING at time 1569



*** Looping through 5.2. Iter = 1726 


  iteration 1726; minNextMutationTime = 1580; timeNextPopSample = 1570; popParams.size() = 1

 We are SAMPLING at time 1570



*** Looping through 5.2. Iter = 1727 


  iteration 1727; minNextMutationTime = 1570.49; timeNextPopSample = 1571; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1728 


  iteration 1728; minNextMutationTime = 1581; timeNextPopSample = 1571; popParams.size() = 2

 We are SAMPLING at time 1571



*** Looping through 5.2. Iter = 1729 


  iteration 1729; minNextMutationTime = 1582; timeNextPopSample = 1572; popParams.size() = 2

 We are SAMPLING at time 1572



*** Looping through 5.2. Iter = 1730 


  iteration 1730; minNextMutationTime = 1583; timeNextPopSample = 1573; popParams.size() = 2

 We are SAMPLING at time 1573



*** Looping through 5.2. Iter = 1731 


  iteration 1731; minNextMutationTime = 1584; timeNextPopSample = 1574; popParams.size() = 1

 We are SAMPLING at time 1574



*** Looping through 5.2. Iter = 1732 


  iteration 1732; minNextMutationTime = 1585; timeNextPopSample = 1575; popParams.size() = 1

 We are SAMPLING at time 1575



*** Looping through 5.2. Iter = 1733 


  iteration 1733; minNextMutationTime = 1586; timeNextPopSample = 1576; popParams.size() = 1

 We are SAMPLING at time 1576



*** Looping through 5.2. Iter = 1734 


  iteration 1734; minNextMutationTime = 1587; timeNextPopSample = 1577; popParams.size() = 1

 We are SAMPLING at time 1577



*** Looping through 5.2. Iter = 1735 


  iteration 1735; minNextMutationTime = 1588; timeNextPopSample = 1578; popParams.size() = 1

 We are SAMPLING at time 1578



*** Looping through 5.2. Iter = 1736 


  iteration 1736; minNextMutationTime = 1589; timeNextPopSample = 1579; popParams.size() = 1

 We are SAMPLING at time 1579



*** Looping through 5.2. Iter = 1737 


  iteration 1737; minNextMutationTime = 1590; timeNextPopSample = 1580; popParams.size() = 1

 We are SAMPLING at time 1580



*** Looping through 5.2. Iter = 1738 


  iteration 1738; minNextMutationTime = 1591; timeNextPopSample = 1581; popParams.size() = 1

 We are SAMPLING at time 1581



*** Looping through 5.2. Iter = 1739 


  iteration 1739; minNextMutationTime = 1581.91; timeNextPopSample = 1582; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1740 


  iteration 1740; minNextMutationTime = 1592; timeNextPopSample = 1582; popParams.size() = 2

 We are SAMPLING at time 1582



*** Looping through 5.2. Iter = 1741 


  iteration 1741; minNextMutationTime = 1593; timeNextPopSample = 1583; popParams.size() = 2

 We are SAMPLING at time 1583



*** Looping through 5.2. Iter = 1742 


  iteration 1742; minNextMutationTime = 1594; timeNextPopSample = 1584; popParams.size() = 1

 We are SAMPLING at time 1584



*** Looping through 5.2. Iter = 1743 


  iteration 1743; minNextMutationTime = 1595; timeNextPopSample = 1585; popParams.size() = 1

 We are SAMPLING at time 1585



*** Looping through 5.2. Iter = 1744 


  iteration 1744; minNextMutationTime = 1596; timeNextPopSample = 1586; popParams.size() = 1

 We are SAMPLING at time 1586



*** Looping through 5.2. Iter = 1745 


  iteration 1745; minNextMutationTime = 1597; timeNextPopSample = 1587; popParams.size() = 1

 We are SAMPLING at time 1587



*** Looping through 5.2. Iter = 1746 


  iteration 1746; minNextMutationTime = 1598; timeNextPopSample = 1588; popParams.size() = 1

 We are SAMPLING at time 1588



*** Looping through 5.2. Iter = 1747 


  iteration 1747; minNextMutationTime = 1599; timeNextPopSample = 1589; popParams.size() = 1

 We are SAMPLING at time 1589



*** Looping through 5.2. Iter = 1748 


  iteration 1748; minNextMutationTime = 1600; timeNextPopSample = 1590; popParams.size() = 1

 We are SAMPLING at time 1590



*** Looping through 5.2. Iter = 1749 


  iteration 1749; minNextMutationTime = 1601; timeNextPopSample = 1591; popParams.size() = 1

 We are SAMPLING at time 1591



*** Looping through 5.2. Iter = 1750 


  iteration 1750; minNextMutationTime = 1602; timeNextPopSample = 1592; popParams.size() = 1

 We are SAMPLING at time 1592



*** Looping through 5.2. Iter = 1751 


  iteration 1751; minNextMutationTime = 1603; timeNextPopSample = 1593; popParams.size() = 1

 We are SAMPLING at time 1593



*** Looping through 5.2. Iter = 1752 


  iteration 1752; minNextMutationTime = 1604; timeNextPopSample = 1594; popParams.size() = 1

 We are SAMPLING at time 1594



*** Looping through 5.2. Iter = 1753 


  iteration 1753; minNextMutationTime = 1605; timeNextPopSample = 1595; popParams.size() = 1

 We are SAMPLING at time 1595



*** Looping through 5.2. Iter = 1754 


  iteration 1754; minNextMutationTime = 1595.51; timeNextPopSample = 1596; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1755 


  iteration 1755; minNextMutationTime = 1606; timeNextPopSample = 1596; popParams.size() = 2

 We are SAMPLING at time 1596



*** Looping through 5.2. Iter = 1756 


  iteration 1756; minNextMutationTime = 1596.14; timeNextPopSample = 1597; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1757 


  iteration 1757; minNextMutationTime = 1607; timeNextPopSample = 1597; popParams.size() = 3

 We are SAMPLING at time 1597



*** Looping through 5.2. Iter = 1758 


  iteration 1758; minNextMutationTime = 1608; timeNextPopSample = 1598; popParams.size() = 3

 We are SAMPLING at time 1598



*** Looping through 5.2. Iter = 1759 


  iteration 1759; minNextMutationTime = 1609; timeNextPopSample = 1599; popParams.size() = 3

 We are SAMPLING at time 1599



*** Looping through 5.2. Iter = 1760 


  iteration 1760; minNextMutationTime = 1610; timeNextPopSample = 1600; popParams.size() = 3

 We are SAMPLING at time 1600



*** Looping through 5.2. Iter = 1761 


  iteration 1761; minNextMutationTime = 1611; timeNextPopSample = 1601; popParams.size() = 3

 We are SAMPLING at time 1601



*** Looping through 5.2. Iter = 1762 


  iteration 1762; minNextMutationTime = 1612; timeNextPopSample = 1602; popParams.size() = 3

 We are SAMPLING at time 1602



*** Looping through 5.2. Iter = 1763 


  iteration 1763; minNextMutationTime = 1613; timeNextPopSample = 1603; popParams.size() = 3

 We are SAMPLING at time 1603



*** Looping through 5.2. Iter = 1764 


  iteration 1764; minNextMutationTime = 1614; timeNextPopSample = 1604; popParams.size() = 3

 We are SAMPLING at time 1604



*** Looping through 5.2. Iter = 1765 


  iteration 1765; minNextMutationTime = 1615; timeNextPopSample = 1605; popParams.size() = 3

 We are SAMPLING at time 1605



*** Looping through 5.2. Iter = 1766 


  iteration 1766; minNextMutationTime = 1616; timeNextPopSample = 1606; popParams.size() = 3

 We are SAMPLING at time 1606



*** Looping through 5.2. Iter = 1767 


  iteration 1767; minNextMutationTime = 1617; timeNextPopSample = 1607; popParams.size() = 3

 We are SAMPLING at time 1607



*** Looping through 5.2. Iter = 1768 


  iteration 1768; minNextMutationTime = 1618; timeNextPopSample = 1608; popParams.size() = 3

 We are SAMPLING at time 1608



*** Looping through 5.2. Iter = 1769 


  iteration 1769; minNextMutationTime = 1619; timeNextPopSample = 1609; popParams.size() = 3

 We are SAMPLING at time 1609



*** Looping through 5.2. Iter = 1770 


  iteration 1770; minNextMutationTime = 1620; timeNextPopSample = 1610; popParams.size() = 3

 We are SAMPLING at time 1610



*** Looping through 5.2. Iter = 1771 


  iteration 1771; minNextMutationTime = 1621; timeNextPopSample = 1611; popParams.size() = 3

 We are SAMPLING at time 1611



*** Looping through 5.2. Iter = 1772 


  iteration 1772; minNextMutationTime = 1622; timeNextPopSample = 1612; popParams.size() = 3

 We are SAMPLING at time 1612



*** Looping through 5.2. Iter = 1773 


  iteration 1773; minNextMutationTime = 1623; timeNextPopSample = 1613; popParams.size() = 3

 We are SAMPLING at time 1613



*** Looping through 5.2. Iter = 1774 


  iteration 1774; minNextMutationTime = 1624; timeNextPopSample = 1614; popParams.size() = 3

 We are SAMPLING at time 1614



*** Looping through 5.2. Iter = 1775 


  iteration 1775; minNextMutationTime = 1625; timeNextPopSample = 1615; popParams.size() = 3

 We are SAMPLING at time 1615



*** Looping through 5.2. Iter = 1776 


  iteration 1776; minNextMutationTime = 1626; timeNextPopSample = 1616; popParams.size() = 3

 We are SAMPLING at time 1616



*** Looping through 5.2. Iter = 1777 


  iteration 1777; minNextMutationTime = 1627; timeNextPopSample = 1617; popParams.size() = 2

 We are SAMPLING at time 1617



*** Looping through 5.2. Iter = 1778 


  iteration 1778; minNextMutationTime = 1628; timeNextPopSample = 1618; popParams.size() = 2

 We are SAMPLING at time 1618



*** Looping through 5.2. Iter = 1779 


  iteration 1779; minNextMutationTime = 1618.64; timeNextPopSample = 1619; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1780 


  iteration 1780; minNextMutationTime = 1629; timeNextPopSample = 1619; popParams.size() = 3

 We are SAMPLING at time 1619



*** Looping through 5.2. Iter = 1781 


  iteration 1781; minNextMutationTime = 1630; timeNextPopSample = 1620; popParams.size() = 3

 We are SAMPLING at time 1620



*** Looping through 5.2. Iter = 1782 


  iteration 1782; minNextMutationTime = 1631; timeNextPopSample = 1621; popParams.size() = 2

 We are SAMPLING at time 1621



*** Looping through 5.2. Iter = 1783 


  iteration 1783; minNextMutationTime = 1632; timeNextPopSample = 1622; popParams.size() = 2

 We are SAMPLING at time 1622



*** Looping through 5.2. Iter = 1784 


  iteration 1784; minNextMutationTime = 1633; timeNextPopSample = 1623; popParams.size() = 2

 We are SAMPLING at time 1623



*** Looping through 5.2. Iter = 1785 


  iteration 1785; minNextMutationTime = 1634; timeNextPopSample = 1624; popParams.size() = 2

 We are SAMPLING at time 1624



*** Looping through 5.2. Iter = 1786 


  iteration 1786; minNextMutationTime = 1635; timeNextPopSample = 1625; popParams.size() = 2

 We are SAMPLING at time 1625



*** Looping through 5.2. Iter = 1787 


  iteration 1787; minNextMutationTime = 1636; timeNextPopSample = 1626; popParams.size() = 2

 We are SAMPLING at time 1626



*** Looping through 5.2. Iter = 1788 


  iteration 1788; minNextMutationTime = 1637; timeNextPopSample = 1627; popParams.size() = 2

 We are SAMPLING at time 1627



*** Looping through 5.2. Iter = 1789 


  iteration 1789; minNextMutationTime = 1638; timeNextPopSample = 1628; popParams.size() = 2

 We are SAMPLING at time 1628



*** Looping through 5.2. Iter = 1790 


  iteration 1790; minNextMutationTime = 1639; timeNextPopSample = 1629; popParams.size() = 2

 We are SAMPLING at time 1629



*** Looping through 5.2. Iter = 1791 


  iteration 1791; minNextMutationTime = 1640; timeNextPopSample = 1630; popParams.size() = 2

 We are SAMPLING at time 1630



*** Looping through 5.2. Iter = 1792 


  iteration 1792; minNextMutationTime = 1641; timeNextPopSample = 1631; popParams.size() = 2

 We are SAMPLING at time 1631



*** Looping through 5.2. Iter = 1793 


  iteration 1793; minNextMutationTime = 1642; timeNextPopSample = 1632; popParams.size() = 2

 We are SAMPLING at time 1632



*** Looping through 5.2. Iter = 1794 


  iteration 1794; minNextMutationTime = 1643; timeNextPopSample = 1633; popParams.size() = 2

 We are SAMPLING at time 1633



*** Looping through 5.2. Iter = 1795 


  iteration 1795; minNextMutationTime = 1633.78; timeNextPopSample = 1634; popParams.size() = 2

     Mutated to existing species 1 (Genotype = 0000000000000000000000000000000000000000000000000000000000000010; sp_id = 2)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 2)
 New popSize = 7



*** Looping through 5.2. Iter = 1796 


  iteration 1796; minNextMutationTime = 1644; timeNextPopSample = 1634; popParams.size() = 2

 We are SAMPLING at time 1634



*** Looping through 5.2. Iter = 1797 


  iteration 1797; minNextMutationTime = 1645; timeNextPopSample = 1635; popParams.size() = 2

 We are SAMPLING at time 1635



*** Looping through 5.2. Iter = 1798 


  iteration 1798; minNextMutationTime = 1646; timeNextPopSample = 1636; popParams.size() = 2

 We are SAMPLING at time 1636



*** Looping through 5.2. Iter = 1799 


  iteration 1799; minNextMutationTime = 1647; timeNextPopSample = 1637; popParams.size() = 2

 We are SAMPLING at time 1637



*** Looping through 5.2. Iter = 1800 


  iteration 1800; minNextMutationTime = 1648; timeNextPopSample = 1638; popParams.size() = 2

 We are SAMPLING at time 1638



*** Looping through 5.2. Iter = 1801 


  iteration 1801; minNextMutationTime = 1649; timeNextPopSample = 1639; popParams.size() = 2

 We are SAMPLING at time 1639



*** Looping through 5.2. Iter = 1802 


  iteration 1802; minNextMutationTime = 1639.12; timeNextPopSample = 1640; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1803 


  iteration 1803; minNextMutationTime = 1650; timeNextPopSample = 1640; popParams.size() = 2

 We are SAMPLING at time 1640



*** Looping through 5.2. Iter = 1804 


  iteration 1804; minNextMutationTime = 1651; timeNextPopSample = 1641; popParams.size() = 1

 We are SAMPLING at time 1641



*** Looping through 5.2. Iter = 1805 


  iteration 1805; minNextMutationTime = 1652; timeNextPopSample = 1642; popParams.size() = 1

 We are SAMPLING at time 1642



*** Looping through 5.2. Iter = 1806 


  iteration 1806; minNextMutationTime = 1653; timeNextPopSample = 1643; popParams.size() = 1

 We are SAMPLING at time 1643



*** Looping through 5.2. Iter = 1807 


  iteration 1807; minNextMutationTime = 1654; timeNextPopSample = 1644; popParams.size() = 1

 We are SAMPLING at time 1644



*** Looping through 5.2. Iter = 1808 


  iteration 1808; minNextMutationTime = 1655; timeNextPopSample = 1645; popParams.size() = 1

 We are SAMPLING at time 1645



*** Looping through 5.2. Iter = 1809 


  iteration 1809; minNextMutationTime = 1656; timeNextPopSample = 1646; popParams.size() = 1

 We are SAMPLING at time 1646



*** Looping through 5.2. Iter = 1810 


  iteration 1810; minNextMutationTime = 1646.25; timeNextPopSample = 1647; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1811 


  iteration 1811; minNextMutationTime = 1657; timeNextPopSample = 1647; popParams.size() = 2

 We are SAMPLING at time 1647



*** Looping through 5.2. Iter = 1812 


  iteration 1812; minNextMutationTime = 1658; timeNextPopSample = 1648; popParams.size() = 1

 We are SAMPLING at time 1648



*** Looping through 5.2. Iter = 1813 


  iteration 1813; minNextMutationTime = 1659; timeNextPopSample = 1649; popParams.size() = 1

 We are SAMPLING at time 1649



*** Looping through 5.2. Iter = 1814 


  iteration 1814; minNextMutationTime = 1649.62; timeNextPopSample = 1650; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1815 


  iteration 1815; minNextMutationTime = 1660; timeNextPopSample = 1650; popParams.size() = 2

 We are SAMPLING at time 1650



*** Looping through 5.2. Iter = 1816 


  iteration 1816; minNextMutationTime = 1650.49; timeNextPopSample = 1651; popParams.size() = 2

     Mutated to existing species 1 (Genotype = 0000000000000000000000000000000000000000000000000000000000000010; sp_id = 2)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 2)
 New popSize = 2



*** Looping through 5.2. Iter = 1817 


  iteration 1817; minNextMutationTime = 1661; timeNextPopSample = 1651; popParams.size() = 2

 We are SAMPLING at time 1651



*** Looping through 5.2. Iter = 1818 


  iteration 1818; minNextMutationTime = 1662; timeNextPopSample = 1652; popParams.size() = 2

 We are SAMPLING at time 1652



*** Looping through 5.2. Iter = 1819 


  iteration 1819; minNextMutationTime = 1663; timeNextPopSample = 1653; popParams.size() = 2

 We are SAMPLING at time 1653



*** Looping through 5.2. Iter = 1820 


  iteration 1820; minNextMutationTime = 1664; timeNextPopSample = 1654; popParams.size() = 2

 We are SAMPLING at time 1654



*** Looping through 5.2. Iter = 1821 


  iteration 1821; minNextMutationTime = 1665; timeNextPopSample = 1655; popParams.size() = 2

 We are SAMPLING at time 1655



*** Looping through 5.2. Iter = 1822 


  iteration 1822; minNextMutationTime = 1666; timeNextPopSample = 1656; popParams.size() = 2

 We are SAMPLING at time 1656



*** Looping through 5.2. Iter = 1823 


  iteration 1823; minNextMutationTime = 1667; timeNextPopSample = 1657; popParams.size() = 2

 We are SAMPLING at time 1657



*** Looping through 5.2. Iter = 1824 


  iteration 1824; minNextMutationTime = 1668; timeNextPopSample = 1658; popParams.size() = 2

 We are SAMPLING at time 1658



*** Looping through 5.2. Iter = 1825 


  iteration 1825; minNextMutationTime = 1658.36; timeNextPopSample = 1659; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1826 


  iteration 1826; minNextMutationTime = 1669; timeNextPopSample = 1659; popParams.size() = 2

 We are SAMPLING at time 1659



*** Looping through 5.2. Iter = 1827 


  iteration 1827; minNextMutationTime = 1670; timeNextPopSample = 1660; popParams.size() = 1

 We are SAMPLING at time 1660



*** Looping through 5.2. Iter = 1828 


  iteration 1828; minNextMutationTime = 1671; timeNextPopSample = 1661; popParams.size() = 1

 We are SAMPLING at time 1661



*** Looping through 5.2. Iter = 1829 


  iteration 1829; minNextMutationTime = 1672; timeNextPopSample = 1662; popParams.size() = 1

 We are SAMPLING at time 1662



*** Looping through 5.2. Iter = 1830 


  iteration 1830; minNextMutationTime = 1662.41; timeNextPopSample = 1663; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1831 


  iteration 1831; minNextMutationTime = 1673; timeNextPopSample = 1663; popParams.size() = 2

 We are SAMPLING at time 1663



*** Looping through 5.2. Iter = 1832 


  iteration 1832; minNextMutationTime = 1674; timeNextPopSample = 1664; popParams.size() = 1

 We are SAMPLING at time 1664



*** Looping through 5.2. Iter = 1833 


  iteration 1833; minNextMutationTime = 1675; timeNextPopSample = 1665; popParams.size() = 1

 We are SAMPLING at time 1665



*** Looping through 5.2. Iter = 1834 


  iteration 1834; minNextMutationTime = 1676; timeNextPopSample = 1666; popParams.size() = 1

 We are SAMPLING at time 1666



*** Looping through 5.2. Iter = 1835 


  iteration 1835; minNextMutationTime = 1677; timeNextPopSample = 1667; popParams.size() = 1

 We are SAMPLING at time 1667



*** Looping through 5.2. Iter = 1836 


  iteration 1836; minNextMutationTime = 1678; timeNextPopSample = 1668; popParams.size() = 1

 We are SAMPLING at time 1668



*** Looping through 5.2. Iter = 1837 


  iteration 1837; minNextMutationTime = 1679; timeNextPopSample = 1669; popParams.size() = 1

 We are SAMPLING at time 1669



*** Looping through 5.2. Iter = 1838 


  iteration 1838; minNextMutationTime = 1680; timeNextPopSample = 1670; popParams.size() = 1

 We are SAMPLING at time 1670



*** Looping through 5.2. Iter = 1839 


  iteration 1839; minNextMutationTime = 1681; timeNextPopSample = 1671; popParams.size() = 1

 We are SAMPLING at time 1671



*** Looping through 5.2. Iter = 1840 


  iteration 1840; minNextMutationTime = 1682; timeNextPopSample = 1672; popParams.size() = 1

 We are SAMPLING at time 1672



*** Looping through 5.2. Iter = 1841 


  iteration 1841; minNextMutationTime = 1683; timeNextPopSample = 1673; popParams.size() = 1

 We are SAMPLING at time 1673



*** Looping through 5.2. Iter = 1842 


  iteration 1842; minNextMutationTime = 1684; timeNextPopSample = 1674; popParams.size() = 1

 We are SAMPLING at time 1674



*** Looping through 5.2. Iter = 1843 


  iteration 1843; minNextMutationTime = 1685; timeNextPopSample = 1675; popParams.size() = 1

 We are SAMPLING at time 1675



*** Looping through 5.2. Iter = 1844 


  iteration 1844; minNextMutationTime = 1675.57; timeNextPopSample = 1676; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1845 


  iteration 1845; minNextMutationTime = 1686; timeNextPopSample = 1676; popParams.size() = 2

 We are SAMPLING at time 1676



*** Looping through 5.2. Iter = 1846 


  iteration 1846; minNextMutationTime = 1687; timeNextPopSample = 1677; popParams.size() = 1

 We are SAMPLING at time 1677



*** Looping through 5.2. Iter = 1847 


  iteration 1847; minNextMutationTime = 1688; timeNextPopSample = 1678; popParams.size() = 1

 We are SAMPLING at time 1678



*** Looping through 5.2. Iter = 1848 


  iteration 1848; minNextMutationTime = 1689; timeNextPopSample = 1679; popParams.size() = 1

 We are SAMPLING at time 1679



*** Looping through 5.2. Iter = 1849 


  iteration 1849; minNextMutationTime = 1679.28; timeNextPopSample = 1680; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1850 


  iteration 1850; minNextMutationTime = 1690; timeNextPopSample = 1680; popParams.size() = 2

 We are SAMPLING at time 1680



*** Looping through 5.2. Iter = 1851 


  iteration 1851; minNextMutationTime = 1691; timeNextPopSample = 1681; popParams.size() = 1

 We are SAMPLING at time 1681



*** Looping through 5.2. Iter = 1852 


  iteration 1852; minNextMutationTime = 1692; timeNextPopSample = 1682; popParams.size() = 1

 We are SAMPLING at time 1682



*** Looping through 5.2. Iter = 1853 


  iteration 1853; minNextMutationTime = 1693; timeNextPopSample = 1683; popParams.size() = 1

 We are SAMPLING at time 1683



*** Looping through 5.2. Iter = 1854 


  iteration 1854; minNextMutationTime = 1694; timeNextPopSample = 1684; popParams.size() = 1

 We are SAMPLING at time 1684



*** Looping through 5.2. Iter = 1855 


  iteration 1855; minNextMutationTime = 1695; timeNextPopSample = 1685; popParams.size() = 1

 We are SAMPLING at time 1685



*** Looping through 5.2. Iter = 1856 


  iteration 1856; minNextMutationTime = 1696; timeNextPopSample = 1686; popParams.size() = 1

 We are SAMPLING at time 1686



*** Looping through 5.2. Iter = 1857 


  iteration 1857; minNextMutationTime = 1697; timeNextPopSample = 1687; popParams.size() = 1

 We are SAMPLING at time 1687



*** Looping through 5.2. Iter = 1858 


  iteration 1858; minNextMutationTime = 1698; timeNextPopSample = 1688; popParams.size() = 1

 We are SAMPLING at time 1688



*** Looping through 5.2. Iter = 1859 


  iteration 1859; minNextMutationTime = 1699; timeNextPopSample = 1689; popParams.size() = 1

 We are SAMPLING at time 1689



*** Looping through 5.2. Iter = 1860 


  iteration 1860; minNextMutationTime = 1700; timeNextPopSample = 1690; popParams.size() = 1

 We are SAMPLING at time 1690



*** Looping through 5.2. Iter = 1861 


  iteration 1861; minNextMutationTime = 1701; timeNextPopSample = 1691; popParams.size() = 1

 We are SAMPLING at time 1691



*** Looping through 5.2. Iter = 1862 


  iteration 1862; minNextMutationTime = 1702; timeNextPopSample = 1692; popParams.size() = 1

 We are SAMPLING at time 1692



*** Looping through 5.2. Iter = 1863 


  iteration 1863; minNextMutationTime = 1703; timeNextPopSample = 1693; popParams.size() = 1

 We are SAMPLING at time 1693



*** Looping through 5.2. Iter = 1864 


  iteration 1864; minNextMutationTime = 1704; timeNextPopSample = 1694; popParams.size() = 1

 We are SAMPLING at time 1694



*** Looping through 5.2. Iter = 1865 


  iteration 1865; minNextMutationTime = 1705; timeNextPopSample = 1695; popParams.size() = 1

 We are SAMPLING at time 1695



*** Looping through 5.2. Iter = 1866 


  iteration 1866; minNextMutationTime = 1706; timeNextPopSample = 1696; popParams.size() = 1

 We are SAMPLING at time 1696



*** Looping through 5.2. Iter = 1867 


  iteration 1867; minNextMutationTime = 1707; timeNextPopSample = 1697; popParams.size() = 1

 We are SAMPLING at time 1697



*** Looping through 5.2. Iter = 1868 


  iteration 1868; minNextMutationTime = 1708; timeNextPopSample = 1698; popParams.size() = 1

 We are SAMPLING at time 1698



*** Looping through 5.2. Iter = 1869 


  iteration 1869; minNextMutationTime = 1709; timeNextPopSample = 1699; popParams.size() = 1

 We are SAMPLING at time 1699



*** Looping through 5.2. Iter = 1870 


  iteration 1870; minNextMutationTime = 1710; timeNextPopSample = 1700; popParams.size() = 1

 We are SAMPLING at time 1700



*** Looping through 5.2. Iter = 1871 


  iteration 1871; minNextMutationTime = 1711; timeNextPopSample = 1701; popParams.size() = 1

 We are SAMPLING at time 1701



*** Looping through 5.2. Iter = 1872 


  iteration 1872; minNextMutationTime = 1712; timeNextPopSample = 1702; popParams.size() = 1

 We are SAMPLING at time 1702



*** Looping through 5.2. Iter = 1873 


  iteration 1873; minNextMutationTime = 1713; timeNextPopSample = 1703; popParams.size() = 1

 We are SAMPLING at time 1703



*** Looping through 5.2. Iter = 1874 


  iteration 1874; minNextMutationTime = 1714; timeNextPopSample = 1704; popParams.size() = 1

 We are SAMPLING at time 1704



*** Looping through 5.2. Iter = 1875 


  iteration 1875; minNextMutationTime = 1715; timeNextPopSample = 1705; popParams.size() = 1

 We are SAMPLING at time 1705



*** Looping through 5.2. Iter = 1876 


  iteration 1876; minNextMutationTime = 1716; timeNextPopSample = 1706; popParams.size() = 1

 We are SAMPLING at time 1706



*** Looping through 5.2. Iter = 1877 


  iteration 1877; minNextMutationTime = 1717; timeNextPopSample = 1707; popParams.size() = 1

 We are SAMPLING at time 1707



*** Looping through 5.2. Iter = 1878 


  iteration 1878; minNextMutationTime = 1718; timeNextPopSample = 1708; popParams.size() = 1

 We are SAMPLING at time 1708



*** Looping through 5.2. Iter = 1879 


  iteration 1879; minNextMutationTime = 1719; timeNextPopSample = 1709; popParams.size() = 1

 We are SAMPLING at time 1709



*** Looping through 5.2. Iter = 1880 


  iteration 1880; minNextMutationTime = 1720; timeNextPopSample = 1710; popParams.size() = 1

 We are SAMPLING at time 1710



*** Looping through 5.2. Iter = 1881 


  iteration 1881; minNextMutationTime = 1721; timeNextPopSample = 1711; popParams.size() = 1

 We are SAMPLING at time 1711



*** Looping through 5.2. Iter = 1882 


  iteration 1882; minNextMutationTime = 1711.77; timeNextPopSample = 1712; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1883 


  iteration 1883; minNextMutationTime = 1722; timeNextPopSample = 1712; popParams.size() = 2

 We are SAMPLING at time 1712



*** Looping through 5.2. Iter = 1884 


  iteration 1884; minNextMutationTime = 1723; timeNextPopSample = 1713; popParams.size() = 1

 We are SAMPLING at time 1713



*** Looping through 5.2. Iter = 1885 


  iteration 1885; minNextMutationTime = 1724; timeNextPopSample = 1714; popParams.size() = 1

 We are SAMPLING at time 1714



*** Looping through 5.2. Iter = 1886 


  iteration 1886; minNextMutationTime = 1725; timeNextPopSample = 1715; popParams.size() = 1

 We are SAMPLING at time 1715



*** Looping through 5.2. Iter = 1887 


  iteration 1887; minNextMutationTime = 1726; timeNextPopSample = 1716; popParams.size() = 1

 We are SAMPLING at time 1716



*** Looping through 5.2. Iter = 1888 


  iteration 1888; minNextMutationTime = 1727; timeNextPopSample = 1717; popParams.size() = 1

 We are SAMPLING at time 1717



*** Looping through 5.2. Iter = 1889 


  iteration 1889; minNextMutationTime = 1728; timeNextPopSample = 1718; popParams.size() = 1

 We are SAMPLING at time 1718



*** Looping through 5.2. Iter = 1890 


  iteration 1890; minNextMutationTime = 1729; timeNextPopSample = 1719; popParams.size() = 1

 We are SAMPLING at time 1719



*** Looping through 5.2. Iter = 1891 


  iteration 1891; minNextMutationTime = 1730; timeNextPopSample = 1720; popParams.size() = 1

 We are SAMPLING at time 1720



*** Looping through 5.2. Iter = 1892 


  iteration 1892; minNextMutationTime = 1731; timeNextPopSample = 1721; popParams.size() = 1

 We are SAMPLING at time 1721



*** Looping through 5.2. Iter = 1893 


  iteration 1893; minNextMutationTime = 1732; timeNextPopSample = 1722; popParams.size() = 1

 We are SAMPLING at time 1722



*** Looping through 5.2. Iter = 1894 


  iteration 1894; minNextMutationTime = 1733; timeNextPopSample = 1723; popParams.size() = 1

 We are SAMPLING at time 1723



*** Looping through 5.2. Iter = 1895 


  iteration 1895; minNextMutationTime = 1734; timeNextPopSample = 1724; popParams.size() = 1

 We are SAMPLING at time 1724



*** Looping through 5.2. Iter = 1896 


  iteration 1896; minNextMutationTime = 1735; timeNextPopSample = 1725; popParams.size() = 1

 We are SAMPLING at time 1725



*** Looping through 5.2. Iter = 1897 


  iteration 1897; minNextMutationTime = 1736; timeNextPopSample = 1726; popParams.size() = 1

 We are SAMPLING at time 1726



*** Looping through 5.2. Iter = 1898 


  iteration 1898; minNextMutationTime = 1737; timeNextPopSample = 1727; popParams.size() = 1

 We are SAMPLING at time 1727



*** Looping through 5.2. Iter = 1899 


  iteration 1899; minNextMutationTime = 1738; timeNextPopSample = 1728; popParams.size() = 1

 We are SAMPLING at time 1728



*** Looping through 5.2. Iter = 1900 


  iteration 1900; minNextMutationTime = 1739; timeNextPopSample = 1729; popParams.size() = 1

 We are SAMPLING at time 1729



*** Looping through 5.2. Iter = 1901 


  iteration 1901; minNextMutationTime = 1729.24; timeNextPopSample = 1730; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1902 


  iteration 1902; minNextMutationTime = 1740; timeNextPopSample = 1730; popParams.size() = 2

 We are SAMPLING at time 1730



*** Looping through 5.2. Iter = 1903 


  iteration 1903; minNextMutationTime = 1741; timeNextPopSample = 1731; popParams.size() = 2

 We are SAMPLING at time 1731



*** Looping through 5.2. Iter = 1904 


  iteration 1904; minNextMutationTime = 1742; timeNextPopSample = 1732; popParams.size() = 1

 We are SAMPLING at time 1732



*** Looping through 5.2. Iter = 1905 


  iteration 1905; minNextMutationTime = 1743; timeNextPopSample = 1733; popParams.size() = 1

 We are SAMPLING at time 1733



*** Looping through 5.2. Iter = 1906 


  iteration 1906; minNextMutationTime = 1733.34; timeNextPopSample = 1734; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1907 


  iteration 1907; minNextMutationTime = 1744; timeNextPopSample = 1734; popParams.size() = 2

 We are SAMPLING at time 1734



*** Looping through 5.2. Iter = 1908 


  iteration 1908; minNextMutationTime = 1745; timeNextPopSample = 1735; popParams.size() = 2

 We are SAMPLING at time 1735



*** Looping through 5.2. Iter = 1909 


  iteration 1909; minNextMutationTime = 1746; timeNextPopSample = 1736; popParams.size() = 1

 We are SAMPLING at time 1736



*** Looping through 5.2. Iter = 1910 


  iteration 1910; minNextMutationTime = 1747; timeNextPopSample = 1737; popParams.size() = 1

 We are SAMPLING at time 1737



*** Looping through 5.2. Iter = 1911 


  iteration 1911; minNextMutationTime = 1748; timeNextPopSample = 1738; popParams.size() = 1

 We are SAMPLING at time 1738



*** Looping through 5.2. Iter = 1912 


  iteration 1912; minNextMutationTime = 1749; timeNextPopSample = 1739; popParams.size() = 1

 We are SAMPLING at time 1739



*** Looping through 5.2. Iter = 1913 


  iteration 1913; minNextMutationTime = 1750; timeNextPopSample = 1740; popParams.size() = 1

 We are SAMPLING at time 1740



*** Looping through 5.2. Iter = 1914 


  iteration 1914; minNextMutationTime = 1740.19; timeNextPopSample = 1741; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1915 


  iteration 1915; minNextMutationTime = 1751; timeNextPopSample = 1741; popParams.size() = 2

 We are SAMPLING at time 1741



*** Looping through 5.2. Iter = 1916 


  iteration 1916; minNextMutationTime = 1752; timeNextPopSample = 1742; popParams.size() = 1

 We are SAMPLING at time 1742



*** Looping through 5.2. Iter = 1917 


  iteration 1917; minNextMutationTime = 1753; timeNextPopSample = 1743; popParams.size() = 1

 We are SAMPLING at time 1743



*** Looping through 5.2. Iter = 1918 


  iteration 1918; minNextMutationTime = 1754; timeNextPopSample = 1744; popParams.size() = 1

 We are SAMPLING at time 1744



*** Looping through 5.2. Iter = 1919 


  iteration 1919; minNextMutationTime = 1755; timeNextPopSample = 1745; popParams.size() = 1

 We are SAMPLING at time 1745



*** Looping through 5.2. Iter = 1920 


  iteration 1920; minNextMutationTime = 1756; timeNextPopSample = 1746; popParams.size() = 1

 We are SAMPLING at time 1746



*** Looping through 5.2. Iter = 1921 


  iteration 1921; minNextMutationTime = 1757; timeNextPopSample = 1747; popParams.size() = 1

 We are SAMPLING at time 1747



*** Looping through 5.2. Iter = 1922 


  iteration 1922; minNextMutationTime = 1747.69; timeNextPopSample = 1748; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1923 


  iteration 1923; minNextMutationTime = 1758; timeNextPopSample = 1748; popParams.size() = 2

 We are SAMPLING at time 1748



*** Looping through 5.2. Iter = 1924 


  iteration 1924; minNextMutationTime = 1759; timeNextPopSample = 1749; popParams.size() = 2

 We are SAMPLING at time 1749



*** Looping through 5.2. Iter = 1925 


  iteration 1925; minNextMutationTime = 1760; timeNextPopSample = 1750; popParams.size() = 2

 We are SAMPLING at time 1750



*** Looping through 5.2. Iter = 1926 


  iteration 1926; minNextMutationTime = 1761; timeNextPopSample = 1751; popParams.size() = 2

 We are SAMPLING at time 1751



*** Looping through 5.2. Iter = 1927 


  iteration 1927; minNextMutationTime = 1762; timeNextPopSample = 1752; popParams.size() = 1

 We are SAMPLING at time 1752



*** Looping through 5.2. Iter = 1928 


  iteration 1928; minNextMutationTime = 1763; timeNextPopSample = 1753; popParams.size() = 1

 We are SAMPLING at time 1753



*** Looping through 5.2. Iter = 1929 


  iteration 1929; minNextMutationTime = 1764; timeNextPopSample = 1754; popParams.size() = 1

 We are SAMPLING at time 1754



*** Looping through 5.2. Iter = 1930 


  iteration 1930; minNextMutationTime = 1765; timeNextPopSample = 1755; popParams.size() = 1

 We are SAMPLING at time 1755



*** Looping through 5.2. Iter = 1931 


  iteration 1931; minNextMutationTime = 1766; timeNextPopSample = 1756; popParams.size() = 1

 We are SAMPLING at time 1756



*** Looping through 5.2. Iter = 1932 


  iteration 1932; minNextMutationTime = 1767; timeNextPopSample = 1757; popParams.size() = 1

 We are SAMPLING at time 1757



*** Looping through 5.2. Iter = 1933 


  iteration 1933; minNextMutationTime = 1768; timeNextPopSample = 1758; popParams.size() = 1

 We are SAMPLING at time 1758



*** Looping through 5.2. Iter = 1934 


  iteration 1934; minNextMutationTime = 1769; timeNextPopSample = 1759; popParams.size() = 1

 We are SAMPLING at time 1759



*** Looping through 5.2. Iter = 1935 


  iteration 1935; minNextMutationTime = 1770; timeNextPopSample = 1760; popParams.size() = 1

 We are SAMPLING at time 1760



*** Looping through 5.2. Iter = 1936 


  iteration 1936; minNextMutationTime = 1771; timeNextPopSample = 1761; popParams.size() = 1

 We are SAMPLING at time 1761



*** Looping through 5.2. Iter = 1937 


  iteration 1937; minNextMutationTime = 1761.31; timeNextPopSample = 1762; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1938 


  iteration 1938; minNextMutationTime = 1772; timeNextPopSample = 1762; popParams.size() = 2

 We are SAMPLING at time 1762



*** Looping through 5.2. Iter = 1939 


  iteration 1939; minNextMutationTime = 1773; timeNextPopSample = 1763; popParams.size() = 2

 We are SAMPLING at time 1763



*** Looping through 5.2. Iter = 1940 


  iteration 1940; minNextMutationTime = 1774; timeNextPopSample = 1764; popParams.size() = 1

 We are SAMPLING at time 1764



*** Looping through 5.2. Iter = 1941 


  iteration 1941; minNextMutationTime = 1775; timeNextPopSample = 1765; popParams.size() = 1

 We are SAMPLING at time 1765



*** Looping through 5.2. Iter = 1942 


  iteration 1942; minNextMutationTime = 1776; timeNextPopSample = 1766; popParams.size() = 1

 We are SAMPLING at time 1766



*** Looping through 5.2. Iter = 1943 


  iteration 1943; minNextMutationTime = 1777; timeNextPopSample = 1767; popParams.size() = 1

 We are SAMPLING at time 1767



*** Looping through 5.2. Iter = 1944 


  iteration 1944; minNextMutationTime = 1778; timeNextPopSample = 1768; popParams.size() = 1

 We are SAMPLING at time 1768



*** Looping through 5.2. Iter = 1945 


  iteration 1945; minNextMutationTime = 1779; timeNextPopSample = 1769; popParams.size() = 1

 We are SAMPLING at time 1769



*** Looping through 5.2. Iter = 1946 


  iteration 1946; minNextMutationTime = 1780; timeNextPopSample = 1770; popParams.size() = 1

 We are SAMPLING at time 1770



*** Looping through 5.2. Iter = 1947 


  iteration 1947; minNextMutationTime = 1781; timeNextPopSample = 1771; popParams.size() = 1

 We are SAMPLING at time 1771



*** Looping through 5.2. Iter = 1948 


  iteration 1948; minNextMutationTime = 1782; timeNextPopSample = 1772; popParams.size() = 1

 We are SAMPLING at time 1772



*** Looping through 5.2. Iter = 1949 


  iteration 1949; minNextMutationTime = 1783; timeNextPopSample = 1773; popParams.size() = 1

 We are SAMPLING at time 1773



*** Looping through 5.2. Iter = 1950 


  iteration 1950; minNextMutationTime = 1784; timeNextPopSample = 1774; popParams.size() = 1

 We are SAMPLING at time 1774



*** Looping through 5.2. Iter = 1951 


  iteration 1951; minNextMutationTime = 1785; timeNextPopSample = 1775; popParams.size() = 1

 We are SAMPLING at time 1775



*** Looping through 5.2. Iter = 1952 


  iteration 1952; minNextMutationTime = 1786; timeNextPopSample = 1776; popParams.size() = 1

 We are SAMPLING at time 1776



*** Looping through 5.2. Iter = 1953 


  iteration 1953; minNextMutationTime = 1787; timeNextPopSample = 1777; popParams.size() = 1

 We are SAMPLING at time 1777



*** Looping through 5.2. Iter = 1954 


  iteration 1954; minNextMutationTime = 1788; timeNextPopSample = 1778; popParams.size() = 1

 We are SAMPLING at time 1778



*** Looping through 5.2. Iter = 1955 


  iteration 1955; minNextMutationTime = 1778.55; timeNextPopSample = 1779; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1956 


  iteration 1956; minNextMutationTime = 1789; timeNextPopSample = 1779; popParams.size() = 2

 We are SAMPLING at time 1779



*** Looping through 5.2. Iter = 1957 


  iteration 1957; minNextMutationTime = 1790; timeNextPopSample = 1780; popParams.size() = 2

 We are SAMPLING at time 1780



*** Looping through 5.2. Iter = 1958 


  iteration 1958; minNextMutationTime = 1791; timeNextPopSample = 1781; popParams.size() = 1

 We are SAMPLING at time 1781



*** Looping through 5.2. Iter = 1959 


  iteration 1959; minNextMutationTime = 1792; timeNextPopSample = 1782; popParams.size() = 1

 We are SAMPLING at time 1782



*** Looping through 5.2. Iter = 1960 


  iteration 1960; minNextMutationTime = 1782.76; timeNextPopSample = 1783; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1961 


  iteration 1961; minNextMutationTime = 1793; timeNextPopSample = 1783; popParams.size() = 2

 We are SAMPLING at time 1783



*** Looping through 5.2. Iter = 1962 


  iteration 1962; minNextMutationTime = 1783.67; timeNextPopSample = 1784; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1963 


  iteration 1963; minNextMutationTime = 1794; timeNextPopSample = 1784; popParams.size() = 3

 We are SAMPLING at time 1784



*** Looping through 5.2. Iter = 1964 


  iteration 1964; minNextMutationTime = 1795; timeNextPopSample = 1785; popParams.size() = 2

 We are SAMPLING at time 1785



*** Looping through 5.2. Iter = 1965 


  iteration 1965; minNextMutationTime = 1796; timeNextPopSample = 1786; popParams.size() = 2

 We are SAMPLING at time 1786



*** Looping through 5.2. Iter = 1966 


  iteration 1966; minNextMutationTime = 1797; timeNextPopSample = 1787; popParams.size() = 1

 We are SAMPLING at time 1787



*** Looping through 5.2. Iter = 1967 


  iteration 1967; minNextMutationTime = 1798; timeNextPopSample = 1788; popParams.size() = 1

 We are SAMPLING at time 1788



*** Looping through 5.2. Iter = 1968 


  iteration 1968; minNextMutationTime = 1799; timeNextPopSample = 1789; popParams.size() = 1

 We are SAMPLING at time 1789



*** Looping through 5.2. Iter = 1969 


  iteration 1969; minNextMutationTime = 1800; timeNextPopSample = 1790; popParams.size() = 1

 We are SAMPLING at time 1790



*** Looping through 5.2. Iter = 1970 


  iteration 1970; minNextMutationTime = 1790.72; timeNextPopSample = 1791; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1971 


  iteration 1971; minNextMutationTime = 1801; timeNextPopSample = 1791; popParams.size() = 2

 We are SAMPLING at time 1791



*** Looping through 5.2. Iter = 1972 


  iteration 1972; minNextMutationTime = 1802; timeNextPopSample = 1792; popParams.size() = 2

 We are SAMPLING at time 1792



*** Looping through 5.2. Iter = 1973 


  iteration 1973; minNextMutationTime = 1803; timeNextPopSample = 1793; popParams.size() = 2

 We are SAMPLING at time 1793



*** Looping through 5.2. Iter = 1974 


  iteration 1974; minNextMutationTime = 1804; timeNextPopSample = 1794; popParams.size() = 2

 We are SAMPLING at time 1794



*** Looping through 5.2. Iter = 1975 


  iteration 1975; minNextMutationTime = 1805; timeNextPopSample = 1795; popParams.size() = 2

 We are SAMPLING at time 1795



*** Looping through 5.2. Iter = 1976 


  iteration 1976; minNextMutationTime = 1806; timeNextPopSample = 1796; popParams.size() = 2

 We are SAMPLING at time 1796



*** Looping through 5.2. Iter = 1977 


  iteration 1977; minNextMutationTime = 1807; timeNextPopSample = 1797; popParams.size() = 2

 We are SAMPLING at time 1797



*** Looping through 5.2. Iter = 1978 


  iteration 1978; minNextMutationTime = 1808; timeNextPopSample = 1798; popParams.size() = 2

 We are SAMPLING at time 1798



*** Looping through 5.2. Iter = 1979 


  iteration 1979; minNextMutationTime = 1798.59; timeNextPopSample = 1799; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1980 


  iteration 1980; minNextMutationTime = 1798.85; timeNextPopSample = 1799; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1981 


  iteration 1981; minNextMutationTime = 1809; timeNextPopSample = 1799; popParams.size() = 3

 We are SAMPLING at time 1799



*** Looping through 5.2. Iter = 1982 


  iteration 1982; minNextMutationTime = 1810; timeNextPopSample = 1800; popParams.size() = 2

 We are SAMPLING at time 1800



*** Looping through 5.2. Iter = 1983 


  iteration 1983; minNextMutationTime = 1811; timeNextPopSample = 1801; popParams.size() = 1

 We are SAMPLING at time 1801



*** Looping through 5.2. Iter = 1984 


  iteration 1984; minNextMutationTime = 1812; timeNextPopSample = 1802; popParams.size() = 1

 We are SAMPLING at time 1802



*** Looping through 5.2. Iter = 1985 


  iteration 1985; minNextMutationTime = 1813; timeNextPopSample = 1803; popParams.size() = 1

 We are SAMPLING at time 1803



*** Looping through 5.2. Iter = 1986 


  iteration 1986; minNextMutationTime = 1814; timeNextPopSample = 1804; popParams.size() = 1

 We are SAMPLING at time 1804



*** Looping through 5.2. Iter = 1987 


  iteration 1987; minNextMutationTime = 1815; timeNextPopSample = 1805; popParams.size() = 1

 We are SAMPLING at time 1805



*** Looping through 5.2. Iter = 1988 


  iteration 1988; minNextMutationTime = 1816; timeNextPopSample = 1806; popParams.size() = 1

 We are SAMPLING at time 1806



*** Looping through 5.2. Iter = 1989 


  iteration 1989; minNextMutationTime = 1817; timeNextPopSample = 1807; popParams.size() = 1

 We are SAMPLING at time 1807



*** Looping through 5.2. Iter = 1990 


  iteration 1990; minNextMutationTime = 1818; timeNextPopSample = 1808; popParams.size() = 1

 We are SAMPLING at time 1808



*** Looping through 5.2. Iter = 1991 


  iteration 1991; minNextMutationTime = 1819; timeNextPopSample = 1809; popParams.size() = 1

 We are SAMPLING at time 1809



*** Looping through 5.2. Iter = 1992 


  iteration 1992; minNextMutationTime = 1820; timeNextPopSample = 1810; popParams.size() = 1

 We are SAMPLING at time 1810



*** Looping through 5.2. Iter = 1993 


  iteration 1993; minNextMutationTime = 1810.2; timeNextPopSample = 1811; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1994 


  iteration 1994; minNextMutationTime = 1821; timeNextPopSample = 1811; popParams.size() = 2

 We are SAMPLING at time 1811



*** Looping through 5.2. Iter = 1995 


  iteration 1995; minNextMutationTime = 1822; timeNextPopSample = 1812; popParams.size() = 1

 We are SAMPLING at time 1812



*** Looping through 5.2. Iter = 1996 


  iteration 1996; minNextMutationTime = 1823; timeNextPopSample = 1813; popParams.size() = 1

 We are SAMPLING at time 1813



*** Looping through 5.2. Iter = 1997 


  iteration 1997; minNextMutationTime = 1824; timeNextPopSample = 1814; popParams.size() = 1

 We are SAMPLING at time 1814



*** Looping through 5.2. Iter = 1998 


  iteration 1998; minNextMutationTime = 1825; timeNextPopSample = 1815; popParams.size() = 1

 We are SAMPLING at time 1815



*** Looping through 5.2. Iter = 1999 


  iteration 1999; minNextMutationTime = 1826; timeNextPopSample = 1816; popParams.size() = 1

 We are SAMPLING at time 1816


    ... iteration 2000
    ... currentTime 1816



*** Looping through 5.2. Iter = 2000 


  iteration 2000; minNextMutationTime = 1827; timeNextPopSample = 1817; popParams.size() = 1

 We are SAMPLING at time 1817



*** Looping through 5.2. Iter = 2001 


  iteration 2001; minNextMutationTime = 1828; timeNextPopSample = 1818; popParams.size() = 1

 We are SAMPLING at time 1818



*** Looping through 5.2. Iter = 2002 


  iteration 2002; minNextMutationTime = 1829; timeNextPopSample = 1819; popParams.size() = 1

 We are SAMPLING at time 1819



*** Looping through 5.2. Iter = 2003 


  iteration 2003; minNextMutationTime = 1819.7; timeNextPopSample = 1820; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 2004 


  iteration 2004; minNextMutationTime = 1830; timeNextPopSample = 1820; popParams.size() = 2

 We are SAMPLING at time 1820



*** Looping through 5.2. Iter = 2005 


  iteration 2005; minNextMutationTime = 1831; timeNextPopSample = 1821; popParams.size() = 2

 We are SAMPLING at time 1821



*** Looping through 5.2. Iter = 2006 


  iteration 2006; minNextMutationTime = 1832; timeNextPopSample = 1822; popParams.size() = 1

 We are SAMPLING at time 1822



*** Looping through 5.2. Iter = 2007 


  iteration 2007; minNextMutationTime = 1833; timeNextPopSample = 1823; popParams.size() = 1

 We are SAMPLING at time 1823



*** Looping through 5.2. Iter = 2008 


  iteration 2008; minNextMutationTime = 1834; timeNextPopSample = 1824; popParams.size() = 1

 We are SAMPLING at time 1824



*** Looping through 5.2. Iter = 2009 


  iteration 2009; minNextMutationTime = 1835; timeNextPopSample = 1825; popParams.size() = 1

 We are SAMPLING at time 1825



*** Looping through 5.2. Iter = 2010 


  iteration 2010; minNextMutationTime = 1836; timeNextPopSample = 1826; popParams.size() = 1

 We are SAMPLING at time 1826



*** Looping through 5.2. Iter = 2011 


  iteration 2011; minNextMutationTime = 1837; timeNextPopSample = 1827; popParams.size() = 1

 We are SAMPLING at time 1827



*** Looping through 5.2. Iter = 2012 


  iteration 2012; minNextMutationTime = 1838; timeNextPopSample = 1828; popParams.size() = 1

 We are SAMPLING at time 1828



*** Looping through 5.2. Iter = 2013 


  iteration 2013; minNextMutationTime = 1839; timeNextPopSample = 1829; popParams.size() = 1

 We are SAMPLING at time 1829



*** Looping through 5.2. Iter = 2014 


  iteration 2014; minNextMutationTime = 1840; timeNextPopSample = 1830; popParams.size() = 1

 We are SAMPLING at time 1830



*** Looping through 5.2. Iter = 2015 


  iteration 2015; minNextMutationTime = 1841; timeNextPopSample = 1831; popParams.size() = 1

 We are SAMPLING at time 1831



*** Looping through 5.2. Iter = 2016 


  iteration 2016; minNextMutationTime = 1842; timeNextPopSample = 1832; popParams.size() = 1

 We are SAMPLING at time 1832



*** Looping through 5.2. Iter = 2017 


  iteration 2017; minNextMutationTime = 1843; timeNextPopSample = 1833; popParams.size() = 1

 We are SAMPLING at time 1833



*** Looping through 5.2. Iter = 2018 


  iteration 2018; minNextMutationTime = 1833.68; timeNextPopSample = 1834; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 2019 


  iteration 2019; minNextMutationTime = 1844; timeNextPopSample = 1834; popParams.size() = 2

 We are SAMPLING at time 1834



*** Looping through 5.2. Iter = 2020 


  iteration 2020; minNextMutationTime = 1834.32; timeNextPopSample = 1835; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 2021 


  iteration 2021; minNextMutationTime = 1845; timeNextPopSample = 1835; popParams.size() = 2

 We are SAMPLING at time 1835



*** Looping through 5.2. Iter = 2022 


  iteration 2022; minNextMutationTime = 1846; timeNextPopSample = 1836; popParams.size() = 2

 We are SAMPLING at time 1836



*** Looping through 5.2. Iter = 2023 


  iteration 2023; minNextMutationTime = 1847; timeNextPopSample = 1837; popParams.size() = 2

 We are SAMPLING at time 1837



*** Looping through 5.2. Iter = 2024 


  iteration 2024; minNextMutationTime = 1848; timeNextPopSample = 1838; popParams.size() = 2

 We are SAMPLING at time 1838



*** Looping through 5.2. Iter = 2025 


  iteration 2025; minNextMutationTime = 1849; timeNextPopSample = 1839; popParams.size() = 2

 We are SAMPLING at time 1839



*** Looping through 5.2. Iter = 2026 


  iteration 2026; minNextMutationTime = 1850; timeNextPopSample = 1840; popParams.size() = 2

 We are SAMPLING at time 1840



*** Looping through 5.2. Iter = 2027 


  iteration 2027; minNextMutationTime = 1851; timeNextPopSample = 1841; popParams.size() = 2

 We are SAMPLING at time 1841



*** Looping through 5.2. Iter = 2028 


  iteration 2028; minNextMutationTime = 1852; timeNextPopSample = 1842; popParams.size() = 2

 We are SAMPLING at time 1842



*** Looping through 5.2. Iter = 2029 


  iteration 2029; minNextMutationTime = 1853; timeNextPopSample = 1843; popParams.size() = 2

 We are SAMPLING at time 1843



*** Looping through 5.2. Iter = 2030 


  iteration 2030; minNextMutationTime = 1854; timeNextPopSample = 1844; popParams.size() = 1

 We are SAMPLING at time 1844



*** Looping through 5.2. Iter = 2031 


  iteration 2031; minNextMutationTime = 1855; timeNextPopSample = 1845; popParams.size() = 1

 We are SAMPLING at time 1845



*** Looping through 5.2. Iter = 2032 


  iteration 2032; minNextMutationTime = 1856; timeNextPopSample = 1846; popParams.size() = 1

 We are SAMPLING at time 1846



*** Looping through 5.2. Iter = 2033 


  iteration 2033; minNextMutationTime = 1857; timeNextPopSample = 1847; popParams.size() = 1

 We are SAMPLING at time 1847



*** Looping through 5.2. Iter = 2034 


  iteration 2034; minNextMutationTime = 1858; timeNextPopSample = 1848; popParams.size() = 1

 We are SAMPLING at time 1848



*** Looping through 5.2. Iter = 2035 


  iteration 2035; minNextMutationTime = 1859; timeNextPopSample = 1849; popParams.size() = 1

 We are SAMPLING at time 1849



*** Looping through 5.2. Iter = 2036 


  iteration 2036; minNextMutationTime = 1860; timeNextPopSample = 1850; popParams.size() = 1

 We are SAMPLING at time 1850



*** Looping through 5.2. Iter = 2037 


  iteration 2037; minNextMutationTime = 1861; timeNextPopSample = 1851; popParams.size() = 1

 We are SAMPLING at time 1851



*** Looping through 5.2. Iter = 2038 


  iteration 2038; minNextMutationTime = 1862; timeNextPopSample = 1852; popParams.size() = 1

 We are SAMPLING at time 1852



*** Looping through 5.2. Iter = 2039 


  iteration 2039; minNextMutationTime = 1863; timeNextPopSample = 1853; popParams.size() = 1

 We are SAMPLING at time 1853



*** Looping through 5.2. Iter = 2040 


  iteration 2040; minNextMutationTime = 1864; timeNextPopSample = 1854; popParams.size() = 1

 We are SAMPLING at time 1854



*** Looping through 5.2. Iter = 2041 


  iteration 2041; minNextMutationTime = 1865; timeNextPopSample = 1855; popParams.size() = 1

 We are SAMPLING at time 1855



*** Looping through 5.2. Iter = 2042 


  iteration 2042; minNextMutationTime = 1866; timeNextPopSample = 1856; popParams.size() = 1

 We are SAMPLING at time 1856



*** Looping through 5.2. Iter = 2043 


  iteration 2043; minNextMutationTime = 1867; timeNextPopSample = 1857; popParams.size() = 1

 We are SAMPLING at time 1857



*** Looping through 5.2. Iter = 2044 


  iteration 2044; minNextMutationTime = 1857.21; timeNextPopSample = 1858; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 2045 


  iteration 2045; minNextMutationTime = 1868; timeNextPopSample = 1858; popParams.size() = 2

 We are SAMPLING at time 1858



*** Looping through 5.2. Iter = 2046 


  iteration 2046; minNextMutationTime = 1869; timeNextPopSample = 1859; popParams.size() = 1

 We are SAMPLING at time 1859



*** Looping through 5.2. Iter = 2047 


  iteration 2047; minNextMutationTime = 1859.74; timeNextPopSample = 1860; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 2048 


  iteration 2048; minNextMutationTime = 1870; timeNextPopSample = 1860; popParams.size() = 2

 We are SAMPLING at time 1860



*** Looping through 5.2. Iter = 2049 


  iteration 2049; minNextMutationTime = 1871; timeNextPopSample = 1861; popParams.size() = 2

 We are SAMPLING at time 1861



*** Looping through 5.2. Iter = 2050 


  iteration 2050; minNextMutationTime = 1872; timeNextPopSample = 1862; popParams.size() = 2

 We are SAMPLING at time 1862



*** Looping through 5.2. Iter = 2051 


  iteration 2051; minNextMutationTime = 1873; timeNextPopSample = 1863; popParams.size() = 2

 We are SAMPLING at time 1863



*** Looping through 5.2. Iter = 2052 


  iteration 2052; minNextMutationTime = 1874; timeNextPopSample = 1864; popParams.size() = 2

 We are SAMPLING at time 1864



*** Looping through 5.2. Iter = 2053 


  iteration 2053; minNextMutationTime = 1864.18; timeNextPopSample = 1865; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 2054 


  iteration 2054; minNextMutationTime = 1875; timeNextPopSample = 1865; popParams.size() = 3

 We are SAMPLING at time 1865



*** Looping through 5.2. Iter = 2055 


  iteration 2055; minNextMutationTime = 1876; timeNextPopSample = 1866; popParams.size() = 3

 We are SAMPLING at time 1866



*** Looping through 5.2. Iter = 2056 


  iteration 2056; minNextMutationTime = 1877; timeNextPopSample = 1867; popParams.size() = 2

 We are SAMPLING at time 1867



*** Looping through 5.2. Iter = 2057 


  iteration 2057; minNextMutationTime = 1878; timeNextPopSample = 1868; popParams.size() = 2

 We are SAMPLING at time 1868



*** Looping through 5.2. Iter = 2058 


  iteration 2058; minNextMutationTime = 1879; timeNextPopSample = 1869; popParams.size() = 2

 We are SAMPLING at time 1869



*** Looping through 5.2. Iter = 2059 


  iteration 2059; minNextMutationTime = 1880; timeNextPopSample = 1870; popParams.size() = 2

 We are SAMPLING at time 1870



*** Looping through 5.2. Iter = 2060 


  iteration 2060; minNextMutationTime = 1881; timeNextPopSample = 1871; popParams.size() = 2

 We are SAMPLING at time 1871



*** Looping through 5.2. Iter = 2061 


  iteration 2061; minNextMutationTime = 1882; timeNextPopSample = 1872; popParams.size() = 2

 We are SAMPLING at time 1872



*** Looping through 5.2. Iter = 2062 


  iteration 2062; minNextMutationTime = 1883; timeNextPopSample = 1873; popParams.size() = 2

 We are SAMPLING at time 1873



*** Looping through 5.2. Iter = 2063 


  iteration 2063; minNextMutationTime = 1884; timeNextPopSample = 1874; popParams.size() = 2

 We are SAMPLING at time 1874



*** Looping through 5.2. Iter = 2064 


  iteration 2064; minNextMutationTime = 1885; timeNextPopSample = 1875; popParams.size() = 2

 We are SAMPLING at time 1875



*** Looping through 5.2. Iter = 2065 


  iteration 2065; minNextMutationTime = 1886; timeNextPopSample = 1876; popParams.size() = 2

 We are SAMPLING at time 1876



*** Looping through 5.2. Iter = 2066 


  iteration 2066; minNextMutationTime = 1876.2; timeNextPopSample = 1877; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 2067 


  iteration 2067; minNextMutationTime = 1887; timeNextPopSample = 1877; popParams.size() = 3

 We are SAMPLING at time 1877



*** Looping through 5.2. Iter = 2068 


  iteration 2068; minNextMutationTime = 1888; timeNextPopSample = 1878; popParams.size() = 2

 We are SAMPLING at time 1878



*** Looping through 5.2. Iter = 2069 


  iteration 2069; minNextMutationTime = 1889; timeNextPopSample = 1879; popParams.size() = 2

 We are SAMPLING at time 1879



*** Looping through 5.2. Iter = 2070 


  iteration 2070; minNextMutationTime = 1890; timeNextPopSample = 1880; popParams.size() = 2

 We are SAMPLING at time 1880



*** Looping through 5.2. Iter = 2071 


  iteration 2071; minNextMutationTime = 1891; timeNextPopSample = 1881; popParams.size() = 2

 We are SAMPLING at time 1881



*** Looping through 5.2. Iter = 2072 


  iteration 2072; minNextMutationTime = 1892; timeNextPopSample = 1882; popParams.size() = 2

 We are SAMPLING at time 1882



*** Looping through 5.2. Iter = 2073 


  iteration 2073; minNextMutationTime = 1893; timeNextPopSample = 1883; popParams.size() = 2

 We are SAMPLING at time 1883



*** Looping through 5.2. Iter = 2074 


  iteration 2074; minNextMutationTime = 1894; timeNextPopSample = 1884; popParams.size() = 2

 We are SAMPLING at time 1884



*** Looping through 5.2. Iter = 2075 


  iteration 2075; minNextMutationTime = 1895; timeNextPopSample = 1885; popParams.size() = 2

 We are SAMPLING at time 1885



*** Looping through 5.2. Iter = 2076 


  iteration 2076; minNextMutationTime = 1896; timeNextPopSample = 1886; popParams.size() = 2

 We are SAMPLING at time 1886



*** Looping through 5.2. Iter = 2077 


  iteration 2077; minNextMutationTime = 1897; timeNextPopSample = 1887; popParams.size() = 2

 We are SAMPLING at time 1887



*** Looping through 5.2. Iter = 2078 


  iteration 2078; minNextMutationTime = 1898; timeNextPopSample = 1888; popParams.size() = 2

 We are SAMPLING at time 1888



*** Looping through 5.2. Iter = 2079 


  iteration 2079; minNextMutationTime = 1899; timeNextPopSample = 1889; popParams.size() = 2

 We are SAMPLING at time 1889



*** Looping through 5.2. Iter = 2080 


  iteration 2080; minNextMutationTime = 1900; timeNextPopSample = 1890; popParams.size() = 2

 We are SAMPLING at time 1890



*** Looping through 5.2. Iter = 2081 


  iteration 2081; minNextMutationTime = 1901; timeNextPopSample = 1891; popParams.size() = 2

 We are SAMPLING at time 1891



*** Looping through 5.2. Iter = 2082 


  iteration 2082; minNextMutationTime = 1902; timeNextPopSample = 1892; popParams.size() = 2

 We are SAMPLING at time 1892



*** Looping through 5.2. Iter = 2083 


  iteration 2083; minNextMutationTime = 1903; timeNextPopSample = 1893; popParams.size() = 2

 We are SAMPLING at time 1893



*** Looping through 5.2. Iter = 2084 


  iteration 2084; minNextMutationTime = 1904; timeNextPopSample = 1894; popParams.size() = 2

 We are SAMPLING at time 1894



*** Looping through 5.2. Iter = 2085 


  iteration 2085; minNextMutationTime = 1894.47; timeNextPopSample = 1895; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 2086 


  iteration 2086; minNextMutationTime = 1905; timeNextPopSample = 1895; popParams.size() = 3

 We are SAMPLING at time 1895



*** Looping through 5.2. Iter = 2087 


  iteration 2087; minNextMutationTime = 1906; timeNextPopSample = 1896; popParams.size() = 3

 We are SAMPLING at time 1896



*** Looping through 5.2. Iter = 2088 


  iteration 2088; minNextMutationTime = 1907; timeNextPopSample = 1897; popParams.size() = 2

 We are SAMPLING at time 1897



*** Looping through 5.2. Iter = 2089 


  iteration 2089; minNextMutationTime = 1897.22; timeNextPopSample = 1898; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 2090 


  iteration 2090; minNextMutationTime = 1897.39; timeNextPopSample = 1898; popParams.size() = 3

     Creating new species   3         from species 0


*** Looping through 5.2. Iter = 2091 


  iteration 2091; minNextMutationTime = 1908; timeNextPopSample = 1898; popParams.size() = 4

 We are SAMPLING at time 1898



*** Looping through 5.2. Iter = 2092 


  iteration 2092; minNextMutationTime = 1909; timeNextPopSample = 1899; popParams.size() = 4

 We are SAMPLING at time 1899



*** Looping through 5.2. Iter = 2093 


  iteration 2093; minNextMutationTime = 1910; timeNextPopSample = 1900; popParams.size() = 4

 We are SAMPLING at time 1900



*** Looping through 5.2. Iter = 2094 


  iteration 2094; minNextMutationTime = 1911; timeNextPopSample = 1901; popParams.size() = 3

 We are SAMPLING at time 1901



*** Looping through 5.2. Iter = 2095 


  iteration 2095; minNextMutationTime = 1901.25; timeNextPopSample = 1902; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 2096 


  iteration 2096; minNextMutationTime = 1912; timeNextPopSample = 1902; popParams.size() = 3

 We are SAMPLING at time 1902



*** Looping through 5.2. Iter = 2097 


  iteration 2097; minNextMutationTime = 1913; timeNextPopSample = 1903; popParams.size() = 3

 We are SAMPLING at time 1903



*** Looping through 5.2. Iter = 2098 


  iteration 2098; minNextMutationTime = 1914; timeNextPopSample = 1904; popParams.size() = 3

 We are SAMPLING at time 1904



*** Looping through 5.2. Iter = 2099 


  iteration 2099; minNextMutationTime = 1915; timeNextPopSample = 1905; popParams.size() = 2

 We are SAMPLING at time 1905



*** Looping through 5.2. Iter = 2100 


  iteration 2100; minNextMutationTime = 1916; timeNextPopSample = 1906; popParams.size() = 2

 We are SAMPLING at time 1906



*** Looping through 5.2. Iter = 2101 


  iteration 2101; minNextMutationTime = 1917; timeNextPopSample = 1907; popParams.size() = 2

 We are SAMPLING at time 1907



*** Looping through 5.2. Iter = 2102 


  iteration 2102; minNextMutationTime = 1918; timeNextPopSample = 1908; popParams.size() = 2

 We are SAMPLING at time 1908



*** Looping through 5.2. Iter = 2103 


  iteration 2103; minNextMutationTime = 1919; timeNextPopSample = 1909; popParams.size() = 2

 We are SAMPLING at time 1909



*** Looping through 5.2. Iter = 2104 


  iteration 2104; minNextMutationTime = 1920; timeNextPopSample = 1910; popParams.size() = 2

 We are SAMPLING at time 1910



*** Looping through 5.2. Iter = 2105 


  iteration 2105; minNextMutationTime = 1921; timeNextPopSample = 1911; popParams.size() = 2

 We are SAMPLING at time 1911



*** Looping through 5.2. Iter = 2106 


  iteration 2106; minNextMutationTime = 1922; timeNextPopSample = 1912; popParams.size() = 2

 We are SAMPLING at time 1912



*** Looping through 5.2. Iter = 2107 


  iteration 2107; minNextMutationTime = 1923; timeNextPopSample = 1913; popParams.size() = 2

 We are SAMPLING at time 1913



*** Looping through 5.2. Iter = 2108 


  iteration 2108; minNextMutationTime = 1913.12; timeNextPopSample = 1914; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 2109 


  iteration 2109; minNextMutationTime = 1924; timeNextPopSample = 1914; popParams.size() = 3

 We are SAMPLING at time 1914



*** Looping through 5.2. Iter = 2110 


  iteration 2110; minNextMutationTime = 1925; timeNextPopSample = 1915; popParams.size() = 2

 We are SAMPLING at time 1915



*** Looping through 5.2. Iter = 2111 


  iteration 2111; minNextMutationTime = 1926; timeNextPopSample = 1916; popParams.size() = 2

 We are SAMPLING at time 1916



*** Looping through 5.2. Iter = 2112 


  iteration 2112; minNextMutationTime = 1927; timeNextPopSample = 1917; popParams.size() = 2

 We are SAMPLING at time 1917



*** Looping through 5.2. Iter = 2113 


  iteration 2113; minNextMutationTime = 1917.13; timeNextPopSample = 1918; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 2114 


  iteration 2114; minNextMutationTime = 1928; timeNextPopSample = 1918; popParams.size() = 3

 We are SAMPLING at time 1918



*** Looping through 5.2. Iter = 2115 


  iteration 2115; minNextMutationTime = 1918.11; timeNextPopSample = 1919; popParams.size() = 3

     Creating new species   3         from species 0


*** Looping through 5.2. Iter = 2116 


  iteration 2116; minNextMutationTime = 1929; timeNextPopSample = 1919; popParams.size() = 4

 We are SAMPLING at time 1919



*** Looping through 5.2. Iter = 2117 


  iteration 2117; minNextMutationTime = 1930; timeNextPopSample = 1920; popParams.size() = 4

 We are SAMPLING at time 1920



*** Looping through 5.2. Iter = 2118 


  iteration 2118; minNextMutationTime = 1931; timeNextPopSample = 1921; popParams.size() = 3

 We are SAMPLING at time 1921



*** Looping through 5.2. Iter = 2119 


  iteration 2119; minNextMutationTime = 1921.55; timeNextPopSample = 1922; popParams.size() = 3

     Creating new species   3         from species 0


*** Looping through 5.2. Iter = 2120 


  iteration 2120; minNextMutationTime = 1932; timeNextPopSample = 1922; popParams.size() = 4

 We are SAMPLING at time 1922



*** Looping through 5.2. Iter = 2121 


  iteration 2121; minNextMutationTime = 1933; timeNextPopSample = 1923; popParams.size() = 4

 We are SAMPLING at time 1923



*** Looping through 5.2. Iter = 2122 


  iteration 2122; minNextMutationTime = 1934; timeNextPopSample = 1924; popParams.size() = 4

 We are SAMPLING at time 1924



*** Looping through 5.2. Iter = 2123 


  iteration 2123; minNextMutationTime = 1924.06; timeNextPopSample = 1925; popParams.size() = 4

     Mutated to existing species 1 (Genotype = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 1)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 1)
 New popSize = 14717



*** Looping through 5.2. Iter = 2124 


  iteration 2124; minNextMutationTime = 1935; timeNextPopSample = 1925; popParams.size() = 4

 We are SAMPLING at time 1925



*** Looping through 5.2. Iter = 2125 


  iteration 2125; minNextMutationTime = 1936; timeNextPopSample = 1926; popParams.size() = 4

 We are SAMPLING at time 1926



*** Looping through 5.2. Iter = 2126 


  iteration 2126; minNextMutationTime = 1937; timeNextPopSample = 1927; popParams.size() = 4

 We are SAMPLING at time 1927



*** Looping through 5.2. Iter = 2127 


  iteration 2127; minNextMutationTime = 1938; timeNextPopSample = 1928; popParams.size() = 3

 We are SAMPLING at time 1928



*** Looping through 5.2. Iter = 2128 


  iteration 2128; minNextMutationTime = 1928.6; timeNextPopSample = 1929; popParams.size() = 3

     Creating new species   3         from species 1


*** Looping through 5.2. Iter = 2129 


  iteration 2129; minNextMutationTime = 1939; timeNextPopSample = 1929; popParams.size() = 4

 We are SAMPLING at time 1929



*** Looping through 5.2. Iter = 2130 


  iteration 2130; minNextMutationTime = 1940; timeNextPopSample = 1930; popParams.size() = 4

 We are SAMPLING at time 1930



*** Looping through 5.2. Iter = 2131 


  iteration 2131; minNextMutationTime = 1930.06; timeNextPopSample = 1931; popParams.size() = 3

     Creating new species   3         from species 1


*** Looping through 5.2. Iter = 2132 


  iteration 2132; minNextMutationTime = 1941; timeNextPopSample = 1931; popParams.size() = 4

 We are SAMPLING at time 1931



*** Looping through 5.2. Iter = 2133 


  iteration 2133; minNextMutationTime = 1931.24; timeNextPopSample = 1932; popParams.size() = 4

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 2



*** Looping through 5.2. Iter = 2134 


  iteration 2134; minNextMutationTime = 1942; timeNextPopSample = 1932; popParams.size() = 4

 We are SAMPLING at time 1932



*** Looping through 5.2. Iter = 2135 


  iteration 2135; minNextMutationTime = 1943; timeNextPopSample = 1933; popParams.size() = 4

 We are SAMPLING at time 1933



*** Looping through 5.2. Iter = 2136 


  iteration 2136; minNextMutationTime = 1933.75; timeNextPopSample = 1934; popParams.size() = 4

     Creating new species   4         from species 1


*** Looping through 5.2. Iter = 2137 


  iteration 2137; minNextMutationTime = 1944; timeNextPopSample = 1934; popParams.size() = 5

 We are SAMPLING at time 1934



*** Looping through 5.2. Iter = 2138 


  iteration 2138; minNextMutationTime = 1934.56; timeNextPopSample = 1935; popParams.size() = 5

     Creating new species   5         from species 0


*** Looping through 5.2. Iter = 2139 


  iteration 2139; minNextMutationTime = 1945; timeNextPopSample = 1935; popParams.size() = 6

 We are SAMPLING at time 1935



*** Looping through 5.2. Iter = 2140 


  iteration 2140; minNextMutationTime = 1946; timeNextPopSample = 1936; popParams.size() = 5

 We are SAMPLING at time 1936



*** Looping through 5.2. Iter = 2141 


  iteration 2141; minNextMutationTime = 1936.11; timeNextPopSample = 1937; popParams.size() = 4

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 42



*** Looping through 5.2. Iter = 2142 


  iteration 2142; minNextMutationTime = 1947; timeNextPopSample = 1937; popParams.size() = 4

 We are SAMPLING at time 1937



*** Looping through 5.2. Iter = 2143 


  iteration 2143; minNextMutationTime = 1948; timeNextPopSample = 1938; popParams.size() = 4

 We are SAMPLING at time 1938



*** Looping through 5.2. Iter = 2144 


  iteration 2144; minNextMutationTime = 1949; timeNextPopSample = 1939; popParams.size() = 4

 We are SAMPLING at time 1939



*** Looping through 5.2. Iter = 2145 


  iteration 2145; minNextMutationTime = 1950; timeNextPopSample = 1940; popParams.size() = 4

 We are SAMPLING at time 1940



*** Looping through 5.2. Iter = 2146 


  iteration 2146; minNextMutationTime = 1940.32; timeNextPopSample = 1941; popParams.size() = 4

     Mutated to existing species 1 (Genotype = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 1)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 1)
 New popSize = 76258



*** Looping through 5.2. Iter = 2147 


  iteration 2147; minNextMutationTime = 1951; timeNextPopSample = 1941; popParams.size() = 4

 We are SAMPLING at time 1941



*** Looping through 5.2. Iter = 2148 


  iteration 2148; minNextMutationTime = 1952; timeNextPopSample = 1942; popParams.size() = 4

 We are SAMPLING at time 1942



*** Looping through 5.2. Iter = 2149 


  iteration 2149; minNextMutationTime = 1953; timeNextPopSample = 1943; popParams.size() = 4

 We are SAMPLING at time 1943



*** Looping through 5.2. Iter = 2150 


  iteration 2150; minNextMutationTime = 1954; timeNextPopSample = 1944; popParams.size() = 4

 We are SAMPLING at time 1944



*** Looping through 5.2. Iter = 2151 


  iteration 2151; minNextMutationTime = 1955; timeNextPopSample = 1945; popParams.size() = 4

 We are SAMPLING at time 1945



*** Looping through 5.2. Iter = 2152 


  iteration 2152; minNextMutationTime = 1945.21; timeNextPopSample = 1946; popParams.size() = 4

     Creating new species   4         from species 1


*** Looping through 5.2. Iter = 2153 


  iteration 2153; minNextMutationTime = 1945.55; timeNextPopSample = 1946; popParams.size() = 5

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 2



*** Looping through 5.2. Iter = 2154 


  iteration 2154; minNextMutationTime = 1956; timeNextPopSample = 1946; popParams.size() = 5

 We are SAMPLING at time 1946



*** Looping through 5.2. Iter = 2155 


  iteration 2155; minNextMutationTime = 1957; timeNextPopSample = 1947; popParams.size() = 5

 We are SAMPLING at time 1947



*** Looping through 5.2. Iter = 2156 


  iteration 2156; minNextMutationTime = 1958; timeNextPopSample = 1948; popParams.size() = 5

 We are SAMPLING at time 1948



*** Looping through 5.2. Iter = 2157 


  iteration 2157; minNextMutationTime = 1959; timeNextPopSample = 1949; popParams.size() = 5

 We are SAMPLING at time 1949



*** Looping through 5.2. Iter = 2158 


  iteration 2158; minNextMutationTime = 1949.3; timeNextPopSample = 1950; popParams.size() = 5

     Creating new species   5         from species 1


*** Looping through 5.2. Iter = 2159 


  iteration 2159; minNextMutationTime = 1960; timeNextPopSample = 1950; popParams.size() = 6

 We are SAMPLING at time 1950



*** Looping through 5.2. Iter = 2160 


  iteration 2160; minNextMutationTime = 1950.07; timeNextPopSample = 1951; popParams.size() = 6

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 111



*** Looping through 5.2. Iter = 2161 


  iteration 2161; minNextMutationTime = 1950.15; timeNextPopSample = 1951; popParams.size() = 6

     Creating new species   6         from species 1


*** Looping through 5.2. Iter = 2162 


  iteration 2162; minNextMutationTime = 1950.55; timeNextPopSample = 1951; popParams.size() = 7

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 126



*** Looping through 5.2. Iter = 2163 


  iteration 2163; minNextMutationTime = 1950.83; timeNextPopSample = 1951; popParams.size() = 7

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 6



*** Looping through 5.2. Iter = 2164 


  iteration 2164; minNextMutationTime = 1961; timeNextPopSample = 1951; popParams.size() = 7

 We are SAMPLING at time 1951



*** Looping through 5.2. Iter = 2165 


  iteration 2165; minNextMutationTime = 1951.13; timeNextPopSample = 1952; popParams.size() = 7

     Creating new species   7         from species 1


*** Looping through 5.2. Iter = 2166 


  iteration 2166; minNextMutationTime = 1951.28; timeNextPopSample = 1952; popParams.size() = 8

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 2



*** Looping through 5.2. Iter = 2167 


  iteration 2167; minNextMutationTime = 1951.95; timeNextPopSample = 1952; popParams.size() = 8

     Mutated to existing species 2 (Genotype = 0000000000000000000000000000000000000000000000000000000000001000; sp_id = 8)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 8)
 New popSize = 66



*** Looping through 5.2. Iter = 2168 


  iteration 2168; minNextMutationTime = 1962; timeNextPopSample = 1952; popParams.size() = 8

 We are SAMPLING at time 1952



*** Looping through 5.2. Iter = 2169 


  iteration 2169; minNextMutationTime = 1952.62; timeNextPopSample = 1953; popParams.size() = 7

     Creating new species   7         from species 1


*** Looping through 5.2. Iter = 2170 


  iteration 2170; minNextMutationTime = 1952.66; timeNextPopSample = 1953; popParams.size() = 8

     Mutated to existing species 1 (Genotype = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 1)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 1)
 New popSize = 259294



*** Looping through 5.2. Iter = 2171 


  iteration 2171; minNextMutationTime = 1952.96; timeNextPopSample = 1953; popParams.size() = 8

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 12



*** Looping through 5.2. Iter = 2172 


  iteration 2172; minNextMutationTime = 1963; timeNextPopSample = 1953; popParams.size() = 8

 We are SAMPLING at time 1953



*** Looping through 5.2. Iter = 2173 


  iteration 2173; minNextMutationTime = 1953.1; timeNextPopSample = 1954; popParams.size() = 8

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 2



*** Looping through 5.2. Iter = 2174 


  iteration 2174; minNextMutationTime = 1953.35; timeNextPopSample = 1954; popParams.size() = 8

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 2



*** Looping through 5.2. Iter = 2175 


  iteration 2175; minNextMutationTime = 1953.54; timeNextPopSample = 1954; popParams.size() = 8

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 205



*** Looping through 5.2. Iter = 2176 


  iteration 2176; minNextMutationTime = 1964; timeNextPopSample = 1954; popParams.size() = 8

 We are SAMPLING at time 1954



*** Looping through 5.2. Iter = 2177 


  iteration 2177; minNextMutationTime = 1954.38; timeNextPopSample = 1955; popParams.size() = 8

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 3



*** Looping through 5.2. Iter = 2178 


  iteration 2178; minNextMutationTime = 1954.54; timeNextPopSample = 1955; popParams.size() = 8

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 5



*** Looping through 5.2. Iter = 2179 


  iteration 2179; minNextMutationTime = 1954.55; timeNextPopSample = 1955; popParams.size() = 8

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 13



*** Looping through 5.2. Iter = 2180 


  iteration 2180; minNextMutationTime = 1954.81; timeNextPopSample = 1955; popParams.size() = 8

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 16



*** Looping through 5.2. Iter = 2181 


  iteration 2181; minNextMutationTime = 1965; timeNextPopSample = 1955; popParams.size() = 8

 We are SAMPLING at time 1955



*** Looping through 5.2. Iter = 2182 


  iteration 2182; minNextMutationTime = 1966; timeNextPopSample = 1956; popParams.size() = 8

 We are SAMPLING at time 1956



*** Looping through 5.2. Iter = 2183 


  iteration 2183; minNextMutationTime = 1956.56; timeNextPopSample = 1957; popParams.size() = 7

     Creating new species   7         from species 1


*** Looping through 5.2. Iter = 2184 


  iteration 2184; minNextMutationTime = 1967; timeNextPopSample = 1957; popParams.size() = 8

 We are SAMPLING at time 1957



*** Looping through 5.2. Iter = 2185 


  iteration 2185; minNextMutationTime = 1957.12; timeNextPopSample = 1958; popParams.size() = 8

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 15



*** Looping through 5.2. Iter = 2186 


  iteration 2186; minNextMutationTime = 1968; timeNextPopSample = 1958; popParams.size() = 8

 We are SAMPLING at time 1958



*** Looping through 5.2. Iter = 2187 


  iteration 2187; minNextMutationTime = 1958.47; timeNextPopSample = 1959; popParams.size() = 7

     Creating new species   7         from species 1


*** Looping through 5.2. Iter = 2188 


  iteration 2188; minNextMutationTime = 1969; timeNextPopSample = 1959; popParams.size() = 8

 We are SAMPLING at time 1959



*** Looping through 5.2. Iter = 2189 


  iteration 2189; minNextMutationTime = 1959.47; timeNextPopSample = 1960; popParams.size() = 8

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 28



*** Looping through 5.2. Iter = 2190 


  iteration 2190; minNextMutationTime = 1959.73; timeNextPopSample = 1960; popParams.size() = 8

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 32



*** Looping through 5.2. Iter = 2191 


  iteration 2191; minNextMutationTime = 1970; timeNextPopSample = 1960; popParams.size() = 8

 We are SAMPLING at time 1960



*** Looping through 5.2. Iter = 2192 


  iteration 2192; minNextMutationTime = 1960.11; timeNextPopSample = 1961; popParams.size() = 8

     Creating new species   8         from species 1


*** Looping through 5.2. Iter = 2193 


  iteration 2193; minNextMutationTime = 1960.48; timeNextPopSample = 1961; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 1



*** Looping through 5.2. Iter = 2194 


  iteration 2194; minNextMutationTime = 1960.63; timeNextPopSample = 1961; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 31



*** Looping through 5.2. Iter = 2195 


  iteration 2195; minNextMutationTime = 1960.74; timeNextPopSample = 1961; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 23



*** Looping through 5.2. Iter = 2196 


  iteration 2196; minNextMutationTime = 1971; timeNextPopSample = 1961; popParams.size() = 9

 We are SAMPLING at time 1961



*** Looping through 5.2. Iter = 2197 


  iteration 2197; minNextMutationTime = 1961.11; timeNextPopSample = 1962; popParams.size() = 8

     Mutated to existing species 2 (Genotype = 0000000000000000000000000000000000000000000000000000000000001000; sp_id = 8)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 8)
 New popSize = 82



*** Looping through 5.2. Iter = 2198 


  iteration 2198; minNextMutationTime = 1961.4; timeNextPopSample = 1962; popParams.size() = 8

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 952



*** Looping through 5.2. Iter = 2199 


  iteration 2199; minNextMutationTime = 1972; timeNextPopSample = 1962; popParams.size() = 8

 We are SAMPLING at time 1962



*** Looping through 5.2. Iter = 2200 


  iteration 2200; minNextMutationTime = 1962.12; timeNextPopSample = 1963; popParams.size() = 8

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 2



*** Looping through 5.2. Iter = 2201 


  iteration 2201; minNextMutationTime = 1962.45; timeNextPopSample = 1963; popParams.size() = 8

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 34



*** Looping through 5.2. Iter = 2202 


  iteration 2202; minNextMutationTime = 1962.53; timeNextPopSample = 1963; popParams.size() = 8

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 48



*** Looping through 5.2. Iter = 2203 


  iteration 2203; minNextMutationTime = 1962.57; timeNextPopSample = 1963; popParams.size() = 8

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 23



*** Looping through 5.2. Iter = 2204 


  iteration 2204; minNextMutationTime = 1962.85; timeNextPopSample = 1963; popParams.size() = 8

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 36



*** Looping through 5.2. Iter = 2205 


  iteration 2205; minNextMutationTime = 1973; timeNextPopSample = 1963; popParams.size() = 8

 We are SAMPLING at time 1963



*** Looping through 5.2. Iter = 2206 


  iteration 2206; minNextMutationTime = 1963.05; timeNextPopSample = 1964; popParams.size() = 8

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 56



*** Looping through 5.2. Iter = 2207 


  iteration 2207; minNextMutationTime = 1963.06; timeNextPopSample = 1964; popParams.size() = 8

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 55



*** Looping through 5.2. Iter = 2208 


  iteration 2208; minNextMutationTime = 1963.28; timeNextPopSample = 1964; popParams.size() = 8

     Creating new species   8         from species 1


*** Looping through 5.2. Iter = 2209 


  iteration 2209; minNextMutationTime = 1963.29; timeNextPopSample = 1964; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 47



*** Looping through 5.2. Iter = 2210 


  iteration 2210; minNextMutationTime = 1963.38; timeNextPopSample = 1964; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 1131



*** Looping through 5.2. Iter = 2211 


  iteration 2211; minNextMutationTime = 1963.6; timeNextPopSample = 1964; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 1176



*** Looping through 5.2. Iter = 2212 


  iteration 2212; minNextMutationTime = 1963.6; timeNextPopSample = 1964; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 1179



*** Looping through 5.2. Iter = 2213 


  iteration 2213; minNextMutationTime = 1963.82; timeNextPopSample = 1964; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 85



*** Looping through 5.2. Iter = 2214 


  iteration 2214; minNextMutationTime = 1963.84; timeNextPopSample = 1964; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 1



*** Looping through 5.2. Iter = 2215 


  iteration 2215; minNextMutationTime = 1964; timeNextPopSample = 1964; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 1



*** Looping through 5.2. Iter = 2216 


  iteration 2216; minNextMutationTime = 1974; timeNextPopSample = 1964; popParams.size() = 9

 We are SAMPLING at time 1964



*** Looping through 5.2. Iter = 2217 


  iteration 2217; minNextMutationTime = 1964.51; timeNextPopSample = 1965; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 1



*** Looping through 5.2. Iter = 2218 


  iteration 2218; minNextMutationTime = 1964.7; timeNextPopSample = 1965; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 2



*** Looping through 5.2. Iter = 2219 


  iteration 2219; minNextMutationTime = 1964.78; timeNextPopSample = 1965; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 3



*** Looping through 5.2. Iter = 2220 


  iteration 2220; minNextMutationTime = 1964.78; timeNextPopSample = 1965; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 53



*** Looping through 5.2. Iter = 2221 


  iteration 2221; minNextMutationTime = 1964.93; timeNextPopSample = 1965; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 91



*** Looping through 5.2. Iter = 2222 


  iteration 2222; minNextMutationTime = 1965; timeNextPopSample = 1965; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 1



*** Looping through 5.2. Iter = 2223 


  iteration 2223; minNextMutationTime = 1975; timeNextPopSample = 1965; popParams.size() = 9

 We are SAMPLING at time 1965



*** Looping through 5.2. Iter = 2224 


  iteration 2224; minNextMutationTime = 1965.13; timeNextPopSample = 1966; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 4



*** Looping through 5.2. Iter = 2225 


  iteration 2225; minNextMutationTime = 1965.34; timeNextPopSample = 1966; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 2



*** Looping through 5.2. Iter = 2226 


  iteration 2226; minNextMutationTime = 1965.92; timeNextPopSample = 1966; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 1399



*** Looping through 5.2. Iter = 2227 


  iteration 2227; minNextMutationTime = 1965.92; timeNextPopSample = 1966; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 3



*** Looping through 5.2. Iter = 2228 


  iteration 2228; minNextMutationTime = 1976; timeNextPopSample = 1966; popParams.size() = 9

 We are SAMPLING at time 1966



*** Looping through 5.2. Iter = 2229 


  iteration 2229; minNextMutationTime = 1966.14; timeNextPopSample = 1967; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 5



*** Looping through 5.2. Iter = 2230 


  iteration 2230; minNextMutationTime = 1966.16; timeNextPopSample = 1967; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 3



*** Looping through 5.2. Iter = 2231 


  iteration 2231; minNextMutationTime = 1966.18; timeNextPopSample = 1967; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 1438



*** Looping through 5.2. Iter = 2232 


  iteration 2232; minNextMutationTime = 1966.52; timeNextPopSample = 1967; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 1556



*** Looping through 5.2. Iter = 2233 


  iteration 2233; minNextMutationTime = 1966.73; timeNextPopSample = 1967; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 100



*** Looping through 5.2. Iter = 2234 


  iteration 2234; minNextMutationTime = 1966.81; timeNextPopSample = 1967; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 3



*** Looping through 5.2. Iter = 2235 


  iteration 2235; minNextMutationTime = 1966.83; timeNextPopSample = 1967; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 62



*** Looping through 5.2. Iter = 2236 


  iteration 2236; minNextMutationTime = 1966.86; timeNextPopSample = 1967; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 5



*** Looping through 5.2. Iter = 2237 


  iteration 2237; minNextMutationTime = 1966.95; timeNextPopSample = 1967; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 100



*** Looping through 5.2. Iter = 2238 


  iteration 2238; minNextMutationTime = 1977; timeNextPopSample = 1967; popParams.size() = 9

 We are SAMPLING at time 1967



*** Looping through 5.2. Iter = 2239 


  iteration 2239; minNextMutationTime = 1967.13; timeNextPopSample = 1968; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 1563



*** Looping through 5.2. Iter = 2240 


  iteration 2240; minNextMutationTime = 1967.16; timeNextPopSample = 1968; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 48



*** Looping through 5.2. Iter = 2241 


  iteration 2241; minNextMutationTime = 1967.33; timeNextPopSample = 1968; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 4



*** Looping through 5.2. Iter = 2242 


  iteration 2242; minNextMutationTime = 1967.66; timeNextPopSample = 1968; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 53



*** Looping through 5.2. Iter = 2243 


  iteration 2243; minNextMutationTime = 1967.69; timeNextPopSample = 1968; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 5



*** Looping through 5.2. Iter = 2244 


  iteration 2244; minNextMutationTime = 1967.8; timeNextPopSample = 1968; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 3



*** Looping through 5.2. Iter = 2245 


  iteration 2245; minNextMutationTime = 1967.85; timeNextPopSample = 1968; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 65



*** Looping through 5.2. Iter = 2246 


  iteration 2246; minNextMutationTime = 1978; timeNextPopSample = 1968; popParams.size() = 9

 We are SAMPLING at time 1968



*** Looping through 5.2. Iter = 2247 


  iteration 2247; minNextMutationTime = 1968.04; timeNextPopSample = 1969; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 70



*** Looping through 5.2. Iter = 2248 


  iteration 2248; minNextMutationTime = 1968.06; timeNextPopSample = 1969; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 59



*** Looping through 5.2. Iter = 2249 


  iteration 2249; minNextMutationTime = 1968.06; timeNextPopSample = 1969; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 61



*** Looping through 5.2. Iter = 2250 


  iteration 2250; minNextMutationTime = 1968.21; timeNextPopSample = 1969; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 116



*** Looping through 5.2. Iter = 2251 


  iteration 2251; minNextMutationTime = 1968.46; timeNextPopSample = 1969; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 70



*** Looping through 5.2. Iter = 2252 


  iteration 2252; minNextMutationTime = 1968.53; timeNextPopSample = 1969; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 1614



*** Looping through 5.2. Iter = 2253 


  iteration 2253; minNextMutationTime = 1968.75; timeNextPopSample = 1969; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 3



*** Looping through 5.2. Iter = 2254 


  iteration 2254; minNextMutationTime = 1968.81; timeNextPopSample = 1969; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 5



*** Looping through 5.2. Iter = 2255 


  iteration 2255; minNextMutationTime = 1979; timeNextPopSample = 1969; popParams.size() = 9

 We are SAMPLING at time 1969



*** Looping through 5.2. Iter = 2256 


  iteration 2256; minNextMutationTime = 1969.01; timeNextPopSample = 1970; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 70



*** Looping through 5.2. Iter = 2257 


  iteration 2257; minNextMutationTime = 1969.09; timeNextPopSample = 1970; popParams.size() = 9

     Creating new species   9         from species 0


*** Looping through 5.2. Iter = 2258 


  iteration 2258; minNextMutationTime = 1969.31; timeNextPopSample = 1970; popParams.size() = 10

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 1939



*** Looping through 5.2. Iter = 2259 


  iteration 2259; minNextMutationTime = 1969.36; timeNextPopSample = 1970; popParams.size() = 10

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 3



*** Looping through 5.2. Iter = 2260 


  iteration 2260; minNextMutationTime = 1969.4; timeNextPopSample = 1970; popParams.size() = 10

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 4



*** Looping through 5.2. Iter = 2261 


  iteration 2261; minNextMutationTime = 1969.42; timeNextPopSample = 1970; popParams.size() = 10

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 2016



*** Looping through 5.2. Iter = 2262 


  iteration 2262; minNextMutationTime = 1969.47; timeNextPopSample = 1970; popParams.size() = 10

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 76



*** Looping through 5.2. Iter = 2263 


  iteration 2263; minNextMutationTime = 1969.61; timeNextPopSample = 1970; popParams.size() = 10

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 93



*** Looping through 5.2. Iter = 2264 


  iteration 2264; minNextMutationTime = 1969.63; timeNextPopSample = 1970; popParams.size() = 10

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 2113



*** Looping through 5.2. Iter = 2265 


  iteration 2265; minNextMutationTime = 1969.66; timeNextPopSample = 1970; popParams.size() = 10

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 2137



*** Looping through 5.2. Iter = 2266 


  iteration 2266; minNextMutationTime = 1969.7; timeNextPopSample = 1970; popParams.size() = 10

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 97



*** Looping through 5.2. Iter = 2267 


  iteration 2267; minNextMutationTime = 1969.94; timeNextPopSample = 1970; popParams.size() = 10

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 11



*** Looping through 5.2. Iter = 2268 


  iteration 2268; minNextMutationTime = 1969.99; timeNextPopSample = 1970; popParams.size() = 10

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 2306



*** Looping through 5.2. Iter = 2269 


  iteration 2269; minNextMutationTime = 1980; timeNextPopSample = 1970; popParams.size() = 10

 We are SAMPLING at time 1970



*** Looping through 5.2. Iter = 2270 


  iteration 2270; minNextMutationTime = 1970.18; timeNextPopSample = 1971; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 105



*** Looping through 5.2. Iter = 2271 


  iteration 2271; minNextMutationTime = 1970.25; timeNextPopSample = 1971; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 15



*** Looping through 5.2. Iter = 2272 


  iteration 2272; minNextMutationTime = 1970.3; timeNextPopSample = 1971; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 16



*** Looping through 5.2. Iter = 2273 


  iteration 2273; minNextMutationTime = 1970.38; timeNextPopSample = 1971; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 2339



*** Looping through 5.2. Iter = 2274 


  iteration 2274; minNextMutationTime = 1970.4; timeNextPopSample = 1971; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 2



*** Looping through 5.2. Iter = 2275 


  iteration 2275; minNextMutationTime = 1970.41; timeNextPopSample = 1971; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 17



*** Looping through 5.2. Iter = 2276 


  iteration 2276; minNextMutationTime = 1970.55; timeNextPopSample = 1971; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 3



*** Looping through 5.2. Iter = 2277 


  iteration 2277; minNextMutationTime = 1981; timeNextPopSample = 1971; popParams.size() = 9

 We are SAMPLING at time 1971



*** Looping through 5.2. Iter = 2278 


  iteration 2278; minNextMutationTime = 1971; timeNextPopSample = 1972; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 107



*** Looping through 5.2. Iter = 2279 


  iteration 2279; minNextMutationTime = 1971.04; timeNextPopSample = 1972; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 212



*** Looping through 5.2. Iter = 2280 


  iteration 2280; minNextMutationTime = 1971.05; timeNextPopSample = 1972; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 5



*** Looping through 5.2. Iter = 2281 


  iteration 2281; minNextMutationTime = 1971.11; timeNextPopSample = 1972; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 76



*** Looping through 5.2. Iter = 2282 


  iteration 2282; minNextMutationTime = 1971.22; timeNextPopSample = 1972; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 77



*** Looping through 5.2. Iter = 2283 


  iteration 2283; minNextMutationTime = 1971.25; timeNextPopSample = 1972; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 18



*** Looping through 5.2. Iter = 2284 


  iteration 2284; minNextMutationTime = 1971.49; timeNextPopSample = 1972; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 78



*** Looping through 5.2. Iter = 2285 


  iteration 2285; minNextMutationTime = 1971.72; timeNextPopSample = 1972; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 107



*** Looping through 5.2. Iter = 2286 


  iteration 2286; minNextMutationTime = 1971.86; timeNextPopSample = 1972; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 233



*** Looping through 5.2. Iter = 2287 


  iteration 2287; minNextMutationTime = 1982; timeNextPopSample = 1972; popParams.size() = 9

 We are SAMPLING at time 1972



*** Looping through 5.2. Iter = 2288 


  iteration 2288; minNextMutationTime = 1972.02; timeNextPopSample = 1973; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 2673



*** Looping through 5.2. Iter = 2289 


  iteration 2289; minNextMutationTime = 1972.11; timeNextPopSample = 1973; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 25



*** Looping through 5.2. Iter = 2290 


  iteration 2290; minNextMutationTime = 1972.12; timeNextPopSample = 1973; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 26



*** Looping through 5.2. Iter = 2291 


  iteration 2291; minNextMutationTime = 1972.17; timeNextPopSample = 1973; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 6



*** Looping through 5.2. Iter = 2292 


  iteration 2292; minNextMutationTime = 1972.2; timeNextPopSample = 1973; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 114



*** Looping through 5.2. Iter = 2293 


  iteration 2293; minNextMutationTime = 1972.25; timeNextPopSample = 1973; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 8



*** Looping through 5.2. Iter = 2294 


  iteration 2294; minNextMutationTime = 1972.42; timeNextPopSample = 1973; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 9



*** Looping through 5.2. Iter = 2295 


  iteration 2295; minNextMutationTime = 1972.58; timeNextPopSample = 1973; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 71



*** Looping through 5.2. Iter = 2296 


  iteration 2296; minNextMutationTime = 1972.66; timeNextPopSample = 1973; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 251



*** Looping through 5.2. Iter = 2297 


  iteration 2297; minNextMutationTime = 1972.7; timeNextPopSample = 1973; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 116



*** Looping through 5.2. Iter = 2298 


  iteration 2298; minNextMutationTime = 1972.73; timeNextPopSample = 1973; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 118



*** Looping through 5.2. Iter = 2299 


  iteration 2299; minNextMutationTime = 1972.77; timeNextPopSample = 1973; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 114



*** Looping through 5.2. Iter = 2300 


  iteration 2300; minNextMutationTime = 1972.83; timeNextPopSample = 1973; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 70



*** Looping through 5.2. Iter = 2301 


  iteration 2301; minNextMutationTime = 1972.92; timeNextPopSample = 1973; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 121



*** Looping through 5.2. Iter = 2302 


  iteration 2302; minNextMutationTime = 1983; timeNextPopSample = 1973; popParams.size() = 9

 We are SAMPLING at time 1973



*** Looping through 5.2. Iter = 2303 


  iteration 2303; minNextMutationTime = 1973; timeNextPopSample = 1974; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 2718



*** Looping through 5.2. Iter = 2304 


  iteration 2304; minNextMutationTime = 1973.12; timeNextPopSample = 1974; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 128



*** Looping through 5.2. Iter = 2305 


  iteration 2305; minNextMutationTime = 1973.15; timeNextPopSample = 1974; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 71



*** Looping through 5.2. Iter = 2306 


  iteration 2306; minNextMutationTime = 1973.18; timeNextPopSample = 1974; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 254



*** Looping through 5.2. Iter = 2307 


  iteration 2307; minNextMutationTime = 1973.3; timeNextPopSample = 1974; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 248



*** Looping through 5.2. Iter = 2308 


  iteration 2308; minNextMutationTime = 1973.43; timeNextPopSample = 1974; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 2801



*** Looping through 5.2. Iter = 2309 


  iteration 2309; minNextMutationTime = 1973.47; timeNextPopSample = 1974; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 8



*** Looping through 5.2. Iter = 2310 


  iteration 2310; minNextMutationTime = 1973.6; timeNextPopSample = 1974; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 31



*** Looping through 5.2. Iter = 2311 


  iteration 2311; minNextMutationTime = 1973.67; timeNextPopSample = 1974; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 2825



*** Looping through 5.2. Iter = 2312 


  iteration 2312; minNextMutationTime = 1973.8; timeNextPopSample = 1974; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 33



*** Looping through 5.2. Iter = 2313 


  iteration 2313; minNextMutationTime = 1973.86; timeNextPopSample = 1974; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 136



*** Looping through 5.2. Iter = 2314 


  iteration 2314; minNextMutationTime = 1984; timeNextPopSample = 1974; popParams.size() = 9

 We are SAMPLING at time 1974



*** Looping through 5.2. Iter = 2315 


  iteration 2315; minNextMutationTime = 1974.01; timeNextPopSample = 1975; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 11



*** Looping through 5.2. Iter = 2316 


  iteration 2316; minNextMutationTime = 1974.04; timeNextPopSample = 1975; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 141



*** Looping through 5.2. Iter = 2317 


  iteration 2317; minNextMutationTime = 1974.05; timeNextPopSample = 1975; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 12



*** Looping through 5.2. Iter = 2318 


  iteration 2318; minNextMutationTime = 1974.09; timeNextPopSample = 1975; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 75



*** Looping through 5.2. Iter = 2319 


  iteration 2319; minNextMutationTime = 1974.24; timeNextPopSample = 1975; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 35



*** Looping through 5.2. Iter = 2320 


  iteration 2320; minNextMutationTime = 1974.37; timeNextPopSample = 1975; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 47



*** Looping through 5.2. Iter = 2321 


  iteration 2321; minNextMutationTime = 1974.44; timeNextPopSample = 1975; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 260



*** Looping through 5.2. Iter = 2322 


  iteration 2322; minNextMutationTime = 1974.49; timeNextPopSample = 1975; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 2985



*** Looping through 5.2. Iter = 2323 


  iteration 2323; minNextMutationTime = 1974.66; timeNextPopSample = 1975; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 53



*** Looping through 5.2. Iter = 2324 


  iteration 2324; minNextMutationTime = 1974.69; timeNextPopSample = 1975; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 262



*** Looping through 5.2. Iter = 2325 


  iteration 2325; minNextMutationTime = 1974.7; timeNextPopSample = 1975; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 77



*** Looping through 5.2. Iter = 2326 


  iteration 2326; minNextMutationTime = 1974.72; timeNextPopSample = 1975; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 13



*** Looping through 5.2. Iter = 2327 


  iteration 2327; minNextMutationTime = 1974.79; timeNextPopSample = 1975; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 142



*** Looping through 5.2. Iter = 2328 


  iteration 2328; minNextMutationTime = 1974.87; timeNextPopSample = 1975; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 57



*** Looping through 5.2. Iter = 2329 


  iteration 2329; minNextMutationTime = 1985; timeNextPopSample = 1975; popParams.size() = 9

 We are SAMPLING at time 1975



*** Looping through 5.2. Iter = 2330 


  iteration 2330; minNextMutationTime = 1975.12; timeNextPopSample = 1976; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 142



*** Looping through 5.2. Iter = 2331 


  iteration 2331; minNextMutationTime = 1975.32; timeNextPopSample = 1976; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 51



*** Looping through 5.2. Iter = 2332 


  iteration 2332; minNextMutationTime = 1975.37; timeNextPopSample = 1976; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 15



*** Looping through 5.2. Iter = 2333 


  iteration 2333; minNextMutationTime = 1975.43; timeNextPopSample = 1976; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 17



*** Looping through 5.2. Iter = 2334 


  iteration 2334; minNextMutationTime = 1975.48; timeNextPopSample = 1976; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3109



*** Looping through 5.2. Iter = 2335 


  iteration 2335; minNextMutationTime = 1975.58; timeNextPopSample = 1976; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 288



*** Looping through 5.2. Iter = 2336 


  iteration 2336; minNextMutationTime = 1975.64; timeNextPopSample = 1976; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 84



*** Looping through 5.2. Iter = 2337 


  iteration 2337; minNextMutationTime = 1975.74; timeNextPopSample = 1976; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 151



*** Looping through 5.2. Iter = 2338 


  iteration 2338; minNextMutationTime = 1975.77; timeNextPopSample = 1976; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 148



*** Looping through 5.2. Iter = 2339 


  iteration 2339; minNextMutationTime = 1975.77; timeNextPopSample = 1976; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3108



*** Looping through 5.2. Iter = 2340 


  iteration 2340; minNextMutationTime = 1975.78; timeNextPopSample = 1976; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 290



*** Looping through 5.2. Iter = 2341 


  iteration 2341; minNextMutationTime = 1975.82; timeNextPopSample = 1976; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 149



*** Looping through 5.2. Iter = 2342 


  iteration 2342; minNextMutationTime = 1975.9; timeNextPopSample = 1976; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 153



*** Looping through 5.2. Iter = 2343 


  iteration 2343; minNextMutationTime = 1975.94; timeNextPopSample = 1976; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3124



*** Looping through 5.2. Iter = 2344 


  iteration 2344; minNextMutationTime = 1975.94; timeNextPopSample = 1976; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 18



*** Looping through 5.2. Iter = 2345 


  iteration 2345; minNextMutationTime = 1975.96; timeNextPopSample = 1976; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 291



*** Looping through 5.2. Iter = 2346 


  iteration 2346; minNextMutationTime = 1986; timeNextPopSample = 1976; popParams.size() = 9

 We are SAMPLING at time 1976



*** Looping through 5.2. Iter = 2347 


  iteration 2347; minNextMutationTime = 1976.01; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3166



*** Looping through 5.2. Iter = 2348 


  iteration 2348; minNextMutationTime = 1976.06; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 159



*** Looping through 5.2. Iter = 2349 


  iteration 2349; minNextMutationTime = 1976.11; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 22



*** Looping through 5.2. Iter = 2350 


  iteration 2350; minNextMutationTime = 1976.19; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 300



*** Looping through 5.2. Iter = 2351 


  iteration 2351; minNextMutationTime = 1976.25; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 24



*** Looping through 5.2. Iter = 2352 


  iteration 2352; minNextMutationTime = 1976.31; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3190



*** Looping through 5.2. Iter = 2353 


  iteration 2353; minNextMutationTime = 1976.35; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 165



*** Looping through 5.2. Iter = 2354 


  iteration 2354; minNextMutationTime = 1976.37; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 52



*** Looping through 5.2. Iter = 2355 


  iteration 2355; minNextMutationTime = 1976.42; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 88



*** Looping through 5.2. Iter = 2356 


  iteration 2356; minNextMutationTime = 1976.47; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 25



*** Looping through 5.2. Iter = 2357 


  iteration 2357; minNextMutationTime = 1976.65; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3354



*** Looping through 5.2. Iter = 2358 


  iteration 2358; minNextMutationTime = 1976.68; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3383



*** Looping through 5.2. Iter = 2359 


  iteration 2359; minNextMutationTime = 1976.71; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 88



*** Looping through 5.2. Iter = 2360 


  iteration 2360; minNextMutationTime = 1976.72; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 54



*** Looping through 5.2. Iter = 2361 


  iteration 2361; minNextMutationTime = 1976.74; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 91



*** Looping through 5.2. Iter = 2362 


  iteration 2362; minNextMutationTime = 1976.75; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 164



*** Looping through 5.2. Iter = 2363 


  iteration 2363; minNextMutationTime = 1976.77; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3404



*** Looping through 5.2. Iter = 2364 


  iteration 2364; minNextMutationTime = 1976.86; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 25



*** Looping through 5.2. Iter = 2365 


  iteration 2365; minNextMutationTime = 1976.88; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 165



*** Looping through 5.2. Iter = 2366 


  iteration 2366; minNextMutationTime = 1976.96; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 53



*** Looping through 5.2. Iter = 2367 


  iteration 2367; minNextMutationTime = 1976.97; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 95



*** Looping through 5.2. Iter = 2368 


  iteration 2368; minNextMutationTime = 1987; timeNextPopSample = 1977; popParams.size() = 9

 We are SAMPLING at time 1977



*** Looping through 5.2. Iter = 2369 


  iteration 2369; minNextMutationTime = 1977.04; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 169



*** Looping through 5.2. Iter = 2370 


  iteration 2370; minNextMutationTime = 1977.05; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 30



*** Looping through 5.2. Iter = 2371 


  iteration 2371; minNextMutationTime = 1977.15; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 31



*** Looping through 5.2. Iter = 2372 


  iteration 2372; minNextMutationTime = 1977.26; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 33



*** Looping through 5.2. Iter = 2373 


  iteration 2373; minNextMutationTime = 1977.27; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 170



*** Looping through 5.2. Iter = 2374 


  iteration 2374; minNextMutationTime = 1977.29; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3455



*** Looping through 5.2. Iter = 2375 


  iteration 2375; minNextMutationTime = 1977.39; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3459



*** Looping through 5.2. Iter = 2376 


  iteration 2376; minNextMutationTime = 1977.51; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 162



*** Looping through 5.2. Iter = 2377 


  iteration 2377; minNextMutationTime = 1977.52; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3462



*** Looping through 5.2. Iter = 2378 


  iteration 2378; minNextMutationTime = 1977.52; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 55



*** Looping through 5.2. Iter = 2379 


  iteration 2379; minNextMutationTime = 1977.54; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 35



*** Looping through 5.2. Iter = 2380 


  iteration 2380; minNextMutationTime = 1977.55; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 95



*** Looping through 5.2. Iter = 2381 


  iteration 2381; minNextMutationTime = 1977.57; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 163



*** Looping through 5.2. Iter = 2382 


  iteration 2382; minNextMutationTime = 1977.61; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 97



*** Looping through 5.2. Iter = 2383 


  iteration 2383; minNextMutationTime = 1977.66; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 36



*** Looping through 5.2. Iter = 2384 


  iteration 2384; minNextMutationTime = 1977.73; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 56



*** Looping through 5.2. Iter = 2385 


  iteration 2385; minNextMutationTime = 1977.74; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 37



*** Looping through 5.2. Iter = 2386 


  iteration 2386; minNextMutationTime = 1977.74; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 98



*** Looping through 5.2. Iter = 2387 


  iteration 2387; minNextMutationTime = 1977.83; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 40



*** Looping through 5.2. Iter = 2388 


  iteration 2388; minNextMutationTime = 1988; timeNextPopSample = 1978; popParams.size() = 9

 We are SAMPLING at time 1978



*** Looping through 5.2. Iter = 2389 


  iteration 2389; minNextMutationTime = 1978.06; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 296



*** Looping through 5.2. Iter = 2390 


  iteration 2390; minNextMutationTime = 1978.09; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 301



*** Looping through 5.2. Iter = 2391 


  iteration 2391; minNextMutationTime = 1978.25; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 322



*** Looping through 5.2. Iter = 2392 


  iteration 2392; minNextMutationTime = 1978.36; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3583



*** Looping through 5.2. Iter = 2393 


  iteration 2393; minNextMutationTime = 1978.44; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 179



*** Looping through 5.2. Iter = 2394 


  iteration 2394; minNextMutationTime = 1978.47; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 105



*** Looping through 5.2. Iter = 2395 


  iteration 2395; minNextMutationTime = 1978.5; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 180



*** Looping through 5.2. Iter = 2396 


  iteration 2396; minNextMutationTime = 1978.53; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 185



*** Looping through 5.2. Iter = 2397 


  iteration 2397; minNextMutationTime = 1978.58; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 110



*** Looping through 5.2. Iter = 2398 


  iteration 2398; minNextMutationTime = 1978.62; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 109



*** Looping through 5.2. Iter = 2399 


  iteration 2399; minNextMutationTime = 1978.69; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3600



*** Looping through 5.2. Iter = 2400 


  iteration 2400; minNextMutationTime = 1978.69; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 319



*** Looping through 5.2. Iter = 2401 


  iteration 2401; minNextMutationTime = 1978.73; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 57



*** Looping through 5.2. Iter = 2402 


  iteration 2402; minNextMutationTime = 1978.75; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3605



*** Looping through 5.2. Iter = 2403 


  iteration 2403; minNextMutationTime = 1978.82; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 110



*** Looping through 5.2. Iter = 2404 


  iteration 2404; minNextMutationTime = 1978.86; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3638



*** Looping through 5.2. Iter = 2405 


  iteration 2405; minNextMutationTime = 1978.88; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 60



*** Looping through 5.2. Iter = 2406 


  iteration 2406; minNextMutationTime = 1978.89; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 62



*** Looping through 5.2. Iter = 2407 


  iteration 2407; minNextMutationTime = 1978.9; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 320



*** Looping through 5.2. Iter = 2408 


  iteration 2408; minNextMutationTime = 1978.91; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 111



*** Looping through 5.2. Iter = 2409 


  iteration 2409; minNextMutationTime = 1978.92; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 61



*** Looping through 5.2. Iter = 2410 


  iteration 2410; minNextMutationTime = 1978.93; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 188



*** Looping through 5.2. Iter = 2411 


  iteration 2411; minNextMutationTime = 1978.94; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 61



*** Looping through 5.2. Iter = 2412 


  iteration 2412; minNextMutationTime = 1989; timeNextPopSample = 1979; popParams.size() = 9

 We are SAMPLING at time 1979



*** Looping through 5.2. Iter = 2413 


  iteration 2413; minNextMutationTime = 1979.08; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 332



*** Looping through 5.2. Iter = 2414 


  iteration 2414; minNextMutationTime = 1979.13; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 114



*** Looping through 5.2. Iter = 2415 


  iteration 2415; minNextMutationTime = 1979.13; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 43



*** Looping through 5.2. Iter = 2416 


  iteration 2416; minNextMutationTime = 1979.15; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 114



*** Looping through 5.2. Iter = 2417 


  iteration 2417; minNextMutationTime = 1979.23; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 68



*** Looping through 5.2. Iter = 2418 


  iteration 2418; minNextMutationTime = 1979.25; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 198



*** Looping through 5.2. Iter = 2419 


  iteration 2419; minNextMutationTime = 1979.29; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 205



*** Looping through 5.2. Iter = 2420 


  iteration 2420; minNextMutationTime = 1979.33; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 338



*** Looping through 5.2. Iter = 2421 


  iteration 2421; minNextMutationTime = 1979.43; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 74



*** Looping through 5.2. Iter = 2422 


  iteration 2422; minNextMutationTime = 1979.43; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3695



*** Looping through 5.2. Iter = 2423 


  iteration 2423; minNextMutationTime = 1979.52; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 42



*** Looping through 5.2. Iter = 2424 


  iteration 2424; minNextMutationTime = 1979.55; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 342



*** Looping through 5.2. Iter = 2425 


  iteration 2425; minNextMutationTime = 1979.6; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 117



*** Looping through 5.2. Iter = 2426 


  iteration 2426; minNextMutationTime = 1979.63; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 211



*** Looping through 5.2. Iter = 2427 


  iteration 2427; minNextMutationTime = 1979.68; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 78



*** Looping through 5.2. Iter = 2428 


  iteration 2428; minNextMutationTime = 1979.78; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 215



*** Looping through 5.2. Iter = 2429 


  iteration 2429; minNextMutationTime = 1979.78; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 342



*** Looping through 5.2. Iter = 2430 


  iteration 2430; minNextMutationTime = 1979.83; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3751



*** Looping through 5.2. Iter = 2431 


  iteration 2431; minNextMutationTime = 1979.85; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 342



*** Looping through 5.2. Iter = 2432 


  iteration 2432; minNextMutationTime = 1979.87; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 44



*** Looping through 5.2. Iter = 2433 


  iteration 2433; minNextMutationTime = 1979.87; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 45



*** Looping through 5.2. Iter = 2434 


  iteration 2434; minNextMutationTime = 1979.89; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 48



*** Looping through 5.2. Iter = 2435 


  iteration 2435; minNextMutationTime = 1979.92; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 351



*** Looping through 5.2. Iter = 2436 


  iteration 2436; minNextMutationTime = 1979.95; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 51



*** Looping through 5.2. Iter = 2437 


  iteration 2437; minNextMutationTime = 1979.98; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 353



*** Looping through 5.2. Iter = 2438 


  iteration 2438; minNextMutationTime = 1990; timeNextPopSample = 1980; popParams.size() = 9

 We are SAMPLING at time 1980



*** Looping through 5.2. Iter = 2439 


  iteration 2439; minNextMutationTime = 1980.01; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3787



*** Looping through 5.2. Iter = 2440 


  iteration 2440; minNextMutationTime = 1980.04; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 354



*** Looping through 5.2. Iter = 2441 


  iteration 2441; minNextMutationTime = 1980.11; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 222



*** Looping through 5.2. Iter = 2442 


  iteration 2442; minNextMutationTime = 1980.17; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3856



*** Looping through 5.2. Iter = 2443 


  iteration 2443; minNextMutationTime = 1980.19; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 356



*** Looping through 5.2. Iter = 2444 


  iteration 2444; minNextMutationTime = 1980.27; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3925



*** Looping through 5.2. Iter = 2445 


  iteration 2445; minNextMutationTime = 1980.29; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 223



*** Looping through 5.2. Iter = 2446 


  iteration 2446; minNextMutationTime = 1980.34; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3967



*** Looping through 5.2. Iter = 2447 


  iteration 2447; minNextMutationTime = 1980.43; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 117



*** Looping through 5.2. Iter = 2448 


  iteration 2448; minNextMutationTime = 1980.44; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 79



*** Looping through 5.2. Iter = 2449 


  iteration 2449; minNextMutationTime = 1980.5; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 370



*** Looping through 5.2. Iter = 2450 


  iteration 2450; minNextMutationTime = 1980.56; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4018



*** Looping through 5.2. Iter = 2451 


  iteration 2451; minNextMutationTime = 1980.57; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 225



*** Looping through 5.2. Iter = 2452 


  iteration 2452; minNextMutationTime = 1980.59; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 78



*** Looping through 5.2. Iter = 2453 


  iteration 2453; minNextMutationTime = 1980.61; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 117



*** Looping through 5.2. Iter = 2454 


  iteration 2454; minNextMutationTime = 1980.65; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 121



*** Looping through 5.2. Iter = 2455 


  iteration 2455; minNextMutationTime = 1980.7; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 219



*** Looping through 5.2. Iter = 2456 


  iteration 2456; minNextMutationTime = 1980.72; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4051



*** Looping through 5.2. Iter = 2457 


  iteration 2457; minNextMutationTime = 1980.73; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 122



*** Looping through 5.2. Iter = 2458 


  iteration 2458; minNextMutationTime = 1980.78; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 51



*** Looping through 5.2. Iter = 2459 


  iteration 2459; minNextMutationTime = 1980.81; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4094



*** Looping through 5.2. Iter = 2460 


  iteration 2460; minNextMutationTime = 1980.89; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 206



*** Looping through 5.2. Iter = 2461 


  iteration 2461; minNextMutationTime = 1980.92; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 375



*** Looping through 5.2. Iter = 2462 


  iteration 2462; minNextMutationTime = 1981; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 204



*** Looping through 5.2. Iter = 2463 


  iteration 2463; minNextMutationTime = 1991; timeNextPopSample = 1981; popParams.size() = 9

 We are SAMPLING at time 1981



*** Looping through 5.2. Iter = 2464 


  iteration 2464; minNextMutationTime = 1981.01; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 377



*** Looping through 5.2. Iter = 2465 


  iteration 2465; minNextMutationTime = 1981.03; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 378



*** Looping through 5.2. Iter = 2466 


  iteration 2466; minNextMutationTime = 1981.08; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 207



*** Looping through 5.2. Iter = 2467 


  iteration 2467; minNextMutationTime = 1981.11; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 53



*** Looping through 5.2. Iter = 2468 


  iteration 2468; minNextMutationTime = 1981.13; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 52



*** Looping through 5.2. Iter = 2469 


  iteration 2469; minNextMutationTime = 1981.34; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 348



*** Looping through 5.2. Iter = 2470 


  iteration 2470; minNextMutationTime = 1981.35; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 122



*** Looping through 5.2. Iter = 2471 


  iteration 2471; minNextMutationTime = 1981.35; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 123



*** Looping through 5.2. Iter = 2472 


  iteration 2472; minNextMutationTime = 1981.36; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 80



*** Looping through 5.2. Iter = 2473 


  iteration 2473; minNextMutationTime = 1981.39; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4146



*** Looping through 5.2. Iter = 2474 


  iteration 2474; minNextMutationTime = 1981.41; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 52



*** Looping through 5.2. Iter = 2475 


  iteration 2475; minNextMutationTime = 1981.41; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 353



*** Looping through 5.2. Iter = 2476 


  iteration 2476; minNextMutationTime = 1981.45; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 122



*** Looping through 5.2. Iter = 2477 


  iteration 2477; minNextMutationTime = 1981.45; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 124



*** Looping through 5.2. Iter = 2478 


  iteration 2478; minNextMutationTime = 1981.47; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 84



*** Looping through 5.2. Iter = 2479 


  iteration 2479; minNextMutationTime = 1981.52; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4180



*** Looping through 5.2. Iter = 2480 


  iteration 2480; minNextMutationTime = 1981.54; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4182



*** Looping through 5.2. Iter = 2481 


  iteration 2481; minNextMutationTime = 1981.61; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 361



*** Looping through 5.2. Iter = 2482 


  iteration 2482; minNextMutationTime = 1981.63; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4203



*** Looping through 5.2. Iter = 2483 


  iteration 2483; minNextMutationTime = 1981.68; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 51



*** Looping through 5.2. Iter = 2484 


  iteration 2484; minNextMutationTime = 1981.69; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 52



*** Looping through 5.2. Iter = 2485 


  iteration 2485; minNextMutationTime = 1981.7; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 212



*** Looping through 5.2. Iter = 2486 


  iteration 2486; minNextMutationTime = 1981.72; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 87



*** Looping through 5.2. Iter = 2487 


  iteration 2487; minNextMutationTime = 1981.75; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4226



*** Looping through 5.2. Iter = 2488 


  iteration 2488; minNextMutationTime = 1981.8; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 89



*** Looping through 5.2. Iter = 2489 


  iteration 2489; minNextMutationTime = 1981.87; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4281



*** Looping through 5.2. Iter = 2490 


  iteration 2490; minNextMutationTime = 1981.91; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 124



*** Looping through 5.2. Iter = 2491 


  iteration 2491; minNextMutationTime = 1981.93; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 125



*** Looping through 5.2. Iter = 2492 


  iteration 2492; minNextMutationTime = 1981.96; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 219



*** Looping through 5.2. Iter = 2493 


  iteration 2493; minNextMutationTime = 1992; timeNextPopSample = 1982; popParams.size() = 9

 We are SAMPLING at time 1982



*** Looping through 5.2. Iter = 2494 


  iteration 2494; minNextMutationTime = 1982; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 128



*** Looping through 5.2. Iter = 2495 


  iteration 2495; minNextMutationTime = 1982.02; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 127



*** Looping through 5.2. Iter = 2496 


  iteration 2496; minNextMutationTime = 1982.11; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 48



*** Looping through 5.2. Iter = 2497 


  iteration 2497; minNextMutationTime = 1982.11; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 361



*** Looping through 5.2. Iter = 2498 


  iteration 2498; minNextMutationTime = 1982.13; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 91



*** Looping through 5.2. Iter = 2499 


  iteration 2499; minNextMutationTime = 1982.18; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 367



*** Looping through 5.2. Iter = 2500 


  iteration 2500; minNextMutationTime = 1982.18; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 225



*** Looping through 5.2. Iter = 2501 


  iteration 2501; minNextMutationTime = 1982.22; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 92



*** Looping through 5.2. Iter = 2502 


  iteration 2502; minNextMutationTime = 1982.23; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 129



*** Looping through 5.2. Iter = 2503 


  iteration 2503; minNextMutationTime = 1982.24; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4326



*** Looping through 5.2. Iter = 2504 


  iteration 2504; minNextMutationTime = 1982.28; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 222



*** Looping through 5.2. Iter = 2505 


  iteration 2505; minNextMutationTime = 1982.29; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4337



*** Looping through 5.2. Iter = 2506 


  iteration 2506; minNextMutationTime = 1982.31; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 129



*** Looping through 5.2. Iter = 2507 


  iteration 2507; minNextMutationTime = 1982.32; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 129



*** Looping through 5.2. Iter = 2508 


  iteration 2508; minNextMutationTime = 1982.32; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 224



*** Looping through 5.2. Iter = 2509 


  iteration 2509; minNextMutationTime = 1982.36; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 88



*** Looping through 5.2. Iter = 2510 


  iteration 2510; minNextMutationTime = 1982.36; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 89



*** Looping through 5.2. Iter = 2511 


  iteration 2511; minNextMutationTime = 1982.4; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 232



*** Looping through 5.2. Iter = 2512 


  iteration 2512; minNextMutationTime = 1982.47; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 48



*** Looping through 5.2. Iter = 2513 


  iteration 2513; minNextMutationTime = 1982.47; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 369



*** Looping through 5.2. Iter = 2514 


  iteration 2514; minNextMutationTime = 1982.48; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 232



*** Looping through 5.2. Iter = 2515 


  iteration 2515; minNextMutationTime = 1982.5; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 91



*** Looping through 5.2. Iter = 2516 


  iteration 2516; minNextMutationTime = 1982.54; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 49



*** Looping through 5.2. Iter = 2517 


  iteration 2517; minNextMutationTime = 1982.57; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 52



*** Looping through 5.2. Iter = 2518 


  iteration 2518; minNextMutationTime = 1982.58; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 233



*** Looping through 5.2. Iter = 2519 


  iteration 2519; minNextMutationTime = 1982.59; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 237



*** Looping through 5.2. Iter = 2520 


  iteration 2520; minNextMutationTime = 1982.61; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 237



*** Looping through 5.2. Iter = 2521 


  iteration 2521; minNextMutationTime = 1982.64; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 235



*** Looping through 5.2. Iter = 2522 


  iteration 2522; minNextMutationTime = 1982.64; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 129



*** Looping through 5.2. Iter = 2523 


  iteration 2523; minNextMutationTime = 1982.65; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 128



*** Looping through 5.2. Iter = 2524 


  iteration 2524; minNextMutationTime = 1982.71; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4374



*** Looping through 5.2. Iter = 2525 


  iteration 2525; minNextMutationTime = 1982.73; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 53



*** Looping through 5.2. Iter = 2526 


  iteration 2526; minNextMutationTime = 1982.76; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 130



*** Looping through 5.2. Iter = 2527 


  iteration 2527; minNextMutationTime = 1982.77; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 55



*** Looping through 5.2. Iter = 2528 


  iteration 2528; minNextMutationTime = 1982.8; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 234



*** Looping through 5.2. Iter = 2529 


  iteration 2529; minNextMutationTime = 1982.81; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 91



*** Looping through 5.2. Iter = 2530 


  iteration 2530; minNextMutationTime = 1982.82; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4388



*** Looping through 5.2. Iter = 2531 


  iteration 2531; minNextMutationTime = 1982.93; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 84



*** Looping through 5.2. Iter = 2532 


  iteration 2532; minNextMutationTime = 1982.97; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 132



*** Looping through 5.2. Iter = 2533 


  iteration 2533; minNextMutationTime = 1982.99; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 83



*** Looping through 5.2. Iter = 2534 


  iteration 2534; minNextMutationTime = 1993; timeNextPopSample = 1983; popParams.size() = 9

 We are SAMPLING at time 1983



*** Looping through 5.2. Iter = 2535 


  iteration 2535; minNextMutationTime = 1983.04; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 384



*** Looping through 5.2. Iter = 2536 


  iteration 2536; minNextMutationTime = 1983.08; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 242



*** Looping through 5.2. Iter = 2537 


  iteration 2537; minNextMutationTime = 1983.14; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4443



*** Looping through 5.2. Iter = 2538 


  iteration 2538; minNextMutationTime = 1983.17; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 242



*** Looping through 5.2. Iter = 2539 


  iteration 2539; minNextMutationTime = 1983.17; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4447



*** Looping through 5.2. Iter = 2540 


  iteration 2540; minNextMutationTime = 1983.29; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 80



*** Looping through 5.2. Iter = 2541 


  iteration 2541; minNextMutationTime = 1983.33; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 139



*** Looping through 5.2. Iter = 2542 


  iteration 2542; minNextMutationTime = 1983.39; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4522



*** Looping through 5.2. Iter = 2543 


  iteration 2543; minNextMutationTime = 1983.4; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4535



*** Looping through 5.2. Iter = 2544 


  iteration 2544; minNextMutationTime = 1983.43; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 83



*** Looping through 5.2. Iter = 2545 


  iteration 2545; minNextMutationTime = 1983.44; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 141



*** Looping through 5.2. Iter = 2546 


  iteration 2546; minNextMutationTime = 1983.5; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 58



*** Looping through 5.2. Iter = 2547 


  iteration 2547; minNextMutationTime = 1983.52; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4562



*** Looping through 5.2. Iter = 2548 


  iteration 2548; minNextMutationTime = 1983.53; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4564



*** Looping through 5.2. Iter = 2549 


  iteration 2549; minNextMutationTime = 1983.57; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 251



*** Looping through 5.2. Iter = 2550 


  iteration 2550; minNextMutationTime = 1983.73; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 64



*** Looping through 5.2. Iter = 2551 


  iteration 2551; minNextMutationTime = 1983.73; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 385



*** Looping through 5.2. Iter = 2552 


  iteration 2552; minNextMutationTime = 1983.78; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 257



*** Looping through 5.2. Iter = 2553 


  iteration 2553; minNextMutationTime = 1983.86; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4649



*** Looping through 5.2. Iter = 2554 


  iteration 2554; minNextMutationTime = 1983.88; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 63



*** Looping through 5.2. Iter = 2555 


  iteration 2555; minNextMutationTime = 1983.89; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 63



*** Looping through 5.2. Iter = 2556 


  iteration 2556; minNextMutationTime = 1983.91; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 86



*** Looping through 5.2. Iter = 2557 


  iteration 2557; minNextMutationTime = 1983.91; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 142



*** Looping through 5.2. Iter = 2558 


  iteration 2558; minNextMutationTime = 1983.92; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 88



*** Looping through 5.2. Iter = 2559 


  iteration 2559; minNextMutationTime = 1994; timeNextPopSample = 1984; popParams.size() = 9

 We are SAMPLING at time 1984



*** Looping through 5.2. Iter = 2560 


  iteration 2560; minNextMutationTime = 1984.01; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4782



*** Looping through 5.2. Iter = 2561 


  iteration 2561; minNextMutationTime = 1984.02; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 266



*** Looping through 5.2. Iter = 2562 


  iteration 2562; minNextMutationTime = 1984.04; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 399



*** Looping through 5.2. Iter = 2563 


  iteration 2563; minNextMutationTime = 1984.07; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 94



*** Looping through 5.2. Iter = 2564 


  iteration 2564; minNextMutationTime = 1984.1; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 271



*** Looping through 5.2. Iter = 2565 


  iteration 2565; minNextMutationTime = 1984.11; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 267



*** Looping through 5.2. Iter = 2566 


  iteration 2566; minNextMutationTime = 1984.13; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 265



*** Looping through 5.2. Iter = 2567 


  iteration 2567; minNextMutationTime = 1984.13; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 65



*** Looping through 5.2. Iter = 2568 


  iteration 2568; minNextMutationTime = 1984.16; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 97



*** Looping through 5.2. Iter = 2569 


  iteration 2569; minNextMutationTime = 1984.17; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4772



*** Looping through 5.2. Iter = 2570 


  iteration 2570; minNextMutationTime = 1984.17; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 98



*** Looping through 5.2. Iter = 2571 


  iteration 2571; minNextMutationTime = 1984.19; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 65



*** Looping through 5.2. Iter = 2572 


  iteration 2572; minNextMutationTime = 1984.2; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 145



*** Looping through 5.2. Iter = 2573 


  iteration 2573; minNextMutationTime = 1984.21; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 401



*** Looping through 5.2. Iter = 2574 


  iteration 2574; minNextMutationTime = 1984.23; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 98



*** Looping through 5.2. Iter = 2575 


  iteration 2575; minNextMutationTime = 1984.25; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 144



*** Looping through 5.2. Iter = 2576 


  iteration 2576; minNextMutationTime = 1984.27; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 67



*** Looping through 5.2. Iter = 2577 


  iteration 2577; minNextMutationTime = 1984.27; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 68



*** Looping through 5.2. Iter = 2578 


  iteration 2578; minNextMutationTime = 1984.27; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 145



*** Looping through 5.2. Iter = 2579 


  iteration 2579; minNextMutationTime = 1984.29; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 100



*** Looping through 5.2. Iter = 2580 


  iteration 2580; minNextMutationTime = 1984.38; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4825



*** Looping through 5.2. Iter = 2581 


  iteration 2581; minNextMutationTime = 1984.39; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 146



*** Looping through 5.2. Iter = 2582 


  iteration 2582; minNextMutationTime = 1984.42; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 146



*** Looping through 5.2. Iter = 2583 


  iteration 2583; minNextMutationTime = 1984.48; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 406



*** Looping through 5.2. Iter = 2584 


  iteration 2584; minNextMutationTime = 1984.51; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 404



*** Looping through 5.2. Iter = 2585 


  iteration 2585; minNextMutationTime = 1984.58; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 102



*** Looping through 5.2. Iter = 2586 


  iteration 2586; minNextMutationTime = 1984.6; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 68



*** Looping through 5.2. Iter = 2587 


  iteration 2587; minNextMutationTime = 1984.62; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 68



*** Looping through 5.2. Iter = 2588 


  iteration 2588; minNextMutationTime = 1984.62; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 266



*** Looping through 5.2. Iter = 2589 


  iteration 2589; minNextMutationTime = 1984.64; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 69



*** Looping through 5.2. Iter = 2590 


  iteration 2590; minNextMutationTime = 1984.64; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 70



*** Looping through 5.2. Iter = 2591 


  iteration 2591; minNextMutationTime = 1984.65; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 103



*** Looping through 5.2. Iter = 2592 


  iteration 2592; minNextMutationTime = 1984.66; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 73



*** Looping through 5.2. Iter = 2593 


  iteration 2593; minNextMutationTime = 1984.67; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 75



*** Looping through 5.2. Iter = 2594 


  iteration 2594; minNextMutationTime = 1984.69; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 74



*** Looping through 5.2. Iter = 2595 


  iteration 2595; minNextMutationTime = 1984.7; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 397



*** Looping through 5.2. Iter = 2596 


  iteration 2596; minNextMutationTime = 1984.71; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 268



*** Looping through 5.2. Iter = 2597 


  iteration 2597; minNextMutationTime = 1984.72; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 103



*** Looping through 5.2. Iter = 2598 


  iteration 2598; minNextMutationTime = 1984.76; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 72



*** Looping through 5.2. Iter = 2599 


  iteration 2599; minNextMutationTime = 1984.78; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 106



*** Looping through 5.2. Iter = 2600 


  iteration 2600; minNextMutationTime = 1984.78; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 397



*** Looping through 5.2. Iter = 2601 


  iteration 2601; minNextMutationTime = 1984.81; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 397



*** Looping through 5.2. Iter = 2602 


  iteration 2602; minNextMutationTime = 1984.81; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 108



*** Looping through 5.2. Iter = 2603 


  iteration 2603; minNextMutationTime = 1984.81; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 146



*** Looping through 5.2. Iter = 2604 


  iteration 2604; minNextMutationTime = 1984.82; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 72



*** Looping through 5.2. Iter = 2605 


  iteration 2605; minNextMutationTime = 1984.82; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 74



*** Looping through 5.2. Iter = 2606 


  iteration 2606; minNextMutationTime = 1984.84; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 268



*** Looping through 5.2. Iter = 2607 


  iteration 2607; minNextMutationTime = 1984.84; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 109



*** Looping through 5.2. Iter = 2608 


  iteration 2608; minNextMutationTime = 1984.86; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 114



*** Looping through 5.2. Iter = 2609 


  iteration 2609; minNextMutationTime = 1984.88; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 401



*** Looping through 5.2. Iter = 2610 


  iteration 2610; minNextMutationTime = 1984.89; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 75



*** Looping through 5.2. Iter = 2611 


  iteration 2611; minNextMutationTime = 1984.89; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 402



*** Looping through 5.2. Iter = 2612 


  iteration 2612; minNextMutationTime = 1984.9; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 115



*** Looping through 5.2. Iter = 2613 


  iteration 2613; minNextMutationTime = 1984.91; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 118



*** Looping through 5.2. Iter = 2614 


  iteration 2614; minNextMutationTime = 1984.92; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 269



*** Looping through 5.2. Iter = 2615 


  iteration 2615; minNextMutationTime = 1984.92; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 148



*** Looping through 5.2. Iter = 2616 


  iteration 2616; minNextMutationTime = 1984.97; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4844



*** Looping through 5.2. Iter = 2617 


  iteration 2617; minNextMutationTime = 1995; timeNextPopSample = 1985; popParams.size() = 9

 We are SAMPLING at time 1985



*** Looping through 5.2. Iter = 2618 


  iteration 2618; minNextMutationTime = 1985; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 144



*** Looping through 5.2. Iter = 2619 


  iteration 2619; minNextMutationTime = 1985.04; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4882



*** Looping through 5.2. Iter = 2620 


  iteration 2620; minNextMutationTime = 1985.08; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 152



*** Looping through 5.2. Iter = 2621 


  iteration 2621; minNextMutationTime = 1985.15; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 282



*** Looping through 5.2. Iter = 2622 


  iteration 2622; minNextMutationTime = 1985.17; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 115



*** Looping through 5.2. Iter = 2623 


  iteration 2623; minNextMutationTime = 1985.22; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4967



*** Looping through 5.2. Iter = 2624 


  iteration 2624; minNextMutationTime = 1985.23; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 78



*** Looping through 5.2. Iter = 2625 


  iteration 2625; minNextMutationTime = 1985.25; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 81



*** Looping through 5.2. Iter = 2626 


  iteration 2626; minNextMutationTime = 1985.26; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 284



*** Looping through 5.2. Iter = 2627 


  iteration 2627; minNextMutationTime = 1985.27; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 285



*** Looping through 5.2. Iter = 2628 


  iteration 2628; minNextMutationTime = 1985.28; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 157



*** Looping through 5.2. Iter = 2629 


  iteration 2629; minNextMutationTime = 1985.28; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 82



*** Looping through 5.2. Iter = 2630 


  iteration 2630; minNextMutationTime = 1985.3; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 156



*** Looping through 5.2. Iter = 2631 


  iteration 2631; minNextMutationTime = 1985.3; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 83



*** Looping through 5.2. Iter = 2632 


  iteration 2632; minNextMutationTime = 1985.32; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 114



*** Looping through 5.2. Iter = 2633 


  iteration 2633; minNextMutationTime = 1985.41; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 290



*** Looping through 5.2. Iter = 2634 


  iteration 2634; minNextMutationTime = 1985.43; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 116



*** Looping through 5.2. Iter = 2635 


  iteration 2635; minNextMutationTime = 1985.44; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4968



*** Looping through 5.2. Iter = 2636 


  iteration 2636; minNextMutationTime = 1985.61; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 77



*** Looping through 5.2. Iter = 2637 


  iteration 2637; minNextMutationTime = 1985.66; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 294



*** Looping through 5.2. Iter = 2638 


  iteration 2638; minNextMutationTime = 1985.67; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 297



*** Looping through 5.2. Iter = 2639 


  iteration 2639; minNextMutationTime = 1985.69; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 116



*** Looping through 5.2. Iter = 2640 


  iteration 2640; minNextMutationTime = 1985.69; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4970



*** Looping through 5.2. Iter = 2641 


  iteration 2641; minNextMutationTime = 1985.73; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 412



*** Looping through 5.2. Iter = 2642 


  iteration 2642; minNextMutationTime = 1985.79; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 293



*** Looping through 5.2. Iter = 2643 


  iteration 2643; minNextMutationTime = 1985.82; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 293



*** Looping through 5.2. Iter = 2644 


  iteration 2644; minNextMutationTime = 1985.84; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 121



*** Looping through 5.2. Iter = 2645 


  iteration 2645; minNextMutationTime = 1985.84; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 413



*** Looping through 5.2. Iter = 2646 


  iteration 2646; minNextMutationTime = 1985.85; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 156



*** Looping through 5.2. Iter = 2647 


  iteration 2647; minNextMutationTime = 1985.88; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 118



*** Looping through 5.2. Iter = 2648 


  iteration 2648; minNextMutationTime = 1985.93; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4986



*** Looping through 5.2. Iter = 2649 


  iteration 2649; minNextMutationTime = 1985.96; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 122



*** Looping through 5.2. Iter = 2650 


  iteration 2650; minNextMutationTime = 1985.98; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 158



*** Looping through 5.2. Iter = 2651 


  iteration 2651; minNextMutationTime = 1985.99; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 413



*** Looping through 5.2. Iter = 2652 


  iteration 2652; minNextMutationTime = 1985.99; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 78



*** Looping through 5.2. Iter = 2653 


  iteration 2653; minNextMutationTime = 1996; timeNextPopSample = 1986; popParams.size() = 9

 We are SAMPLING at time 1986



*** Looping through 5.2. Iter = 2654 


  iteration 2654; minNextMutationTime = 1986.02; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 418



*** Looping through 5.2. Iter = 2655 


  iteration 2655; minNextMutationTime = 1986.06; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 121



*** Looping through 5.2. Iter = 2656 


  iteration 2656; minNextMutationTime = 1986.06; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 296



*** Looping through 5.2. Iter = 2657 


  iteration 2657; minNextMutationTime = 1986.07; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 80



*** Looping through 5.2. Iter = 2658 


  iteration 2658; minNextMutationTime = 1986.08; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 80



*** Looping through 5.2. Iter = 2659 


  iteration 2659; minNextMutationTime = 1986.1; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 85



*** Looping through 5.2. Iter = 2660 


  iteration 2660; minNextMutationTime = 1986.13; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 123



*** Looping through 5.2. Iter = 2661 


  iteration 2661; minNextMutationTime = 1986.14; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 297



*** Looping through 5.2. Iter = 2662 


  iteration 2662; minNextMutationTime = 1986.15; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5014



*** Looping through 5.2. Iter = 2663 


  iteration 2663; minNextMutationTime = 1986.16; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 125



*** Looping through 5.2. Iter = 2664 


  iteration 2664; minNextMutationTime = 1986.16; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 86



*** Looping through 5.2. Iter = 2665 


  iteration 2665; minNextMutationTime = 1986.17; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 298



*** Looping through 5.2. Iter = 2666 


  iteration 2666; minNextMutationTime = 1986.18; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 421



*** Looping through 5.2. Iter = 2667 


  iteration 2667; minNextMutationTime = 1986.2; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5043



*** Looping through 5.2. Iter = 2668 


  iteration 2668; minNextMutationTime = 1986.22; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 157



*** Looping through 5.2. Iter = 2669 


  iteration 2669; minNextMutationTime = 1986.28; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 84



*** Looping through 5.2. Iter = 2670 


  iteration 2670; minNextMutationTime = 1986.29; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 418



*** Looping through 5.2. Iter = 2671 


  iteration 2671; minNextMutationTime = 1986.29; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5044



*** Looping through 5.2. Iter = 2672 


  iteration 2672; minNextMutationTime = 1986.29; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5047



*** Looping through 5.2. Iter = 2673 


  iteration 2673; minNextMutationTime = 1986.3; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 420



*** Looping through 5.2. Iter = 2674 


  iteration 2674; minNextMutationTime = 1986.31; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 159



*** Looping through 5.2. Iter = 2675 


  iteration 2675; minNextMutationTime = 1986.31; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 85



*** Looping through 5.2. Iter = 2676 


  iteration 2676; minNextMutationTime = 1986.34; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 87



*** Looping through 5.2. Iter = 2677 


  iteration 2677; minNextMutationTime = 1986.37; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 91



*** Looping through 5.2. Iter = 2678 


  iteration 2678; minNextMutationTime = 1986.39; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 96



*** Looping through 5.2. Iter = 2679 


  iteration 2679; minNextMutationTime = 1986.41; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 127



*** Looping through 5.2. Iter = 2680 


  iteration 2680; minNextMutationTime = 1986.45; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 127



*** Looping through 5.2. Iter = 2681 


  iteration 2681; minNextMutationTime = 1986.46; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 160



*** Looping through 5.2. Iter = 2682 


  iteration 2682; minNextMutationTime = 1986.54; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 160



*** Looping through 5.2. Iter = 2683 


  iteration 2683; minNextMutationTime = 1986.56; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 98



*** Looping through 5.2. Iter = 2684 


  iteration 2684; minNextMutationTime = 1986.57; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 159



*** Looping through 5.2. Iter = 2685 


  iteration 2685; minNextMutationTime = 1986.59; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 128



*** Looping through 5.2. Iter = 2686 


  iteration 2686; minNextMutationTime = 1986.6; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5061



*** Looping through 5.2. Iter = 2687 


  iteration 2687; minNextMutationTime = 1986.63; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 98



*** Looping through 5.2. Iter = 2688 


  iteration 2688; minNextMutationTime = 1986.66; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5113



*** Looping through 5.2. Iter = 2689 


  iteration 2689; minNextMutationTime = 1986.67; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 430



*** Looping through 5.2. Iter = 2690 


  iteration 2690; minNextMutationTime = 1986.68; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 435



*** Looping through 5.2. Iter = 2691 


  iteration 2691; minNextMutationTime = 1986.71; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 434



*** Looping through 5.2. Iter = 2692 


  iteration 2692; minNextMutationTime = 1986.73; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5116



*** Looping through 5.2. Iter = 2693 


  iteration 2693; minNextMutationTime = 1986.74; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 437



*** Looping through 5.2. Iter = 2694 


  iteration 2694; minNextMutationTime = 1986.74; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 297



*** Looping through 5.2. Iter = 2695 


  iteration 2695; minNextMutationTime = 1986.82; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 458



*** Looping through 5.2. Iter = 2696 


  iteration 2696; minNextMutationTime = 1986.84; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 96



*** Looping through 5.2. Iter = 2697 


  iteration 2697; minNextMutationTime = 1986.86; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 131



*** Looping through 5.2. Iter = 2698 


  iteration 2698; minNextMutationTime = 1986.9; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5195



*** Looping through 5.2. Iter = 2699 


  iteration 2699; minNextMutationTime = 1986.91; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 299



*** Looping through 5.2. Iter = 2700 


  iteration 2700; minNextMutationTime = 1986.92; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5190



*** Looping through 5.2. Iter = 2701 


  iteration 2701; minNextMutationTime = 1986.92; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 301



*** Looping through 5.2. Iter = 2702 


  iteration 2702; minNextMutationTime = 1986.95; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 132



*** Looping through 5.2. Iter = 2703 


  iteration 2703; minNextMutationTime = 1986.95; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 133



*** Looping through 5.2. Iter = 2704 


  iteration 2704; minNextMutationTime = 1986.95; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 302



*** Looping through 5.2. Iter = 2705 


  iteration 2705; minNextMutationTime = 1986.95; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 459



*** Looping through 5.2. Iter = 2706 


  iteration 2706; minNextMutationTime = 1986.95; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 460



*** Looping through 5.2. Iter = 2707 


  iteration 2707; minNextMutationTime = 1986.96; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 135



*** Looping through 5.2. Iter = 2708 


  iteration 2708; minNextMutationTime = 1986.98; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 98



*** Looping through 5.2. Iter = 2709 


  iteration 2709; minNextMutationTime = 1997; timeNextPopSample = 1987; popParams.size() = 9

 We are SAMPLING at time 1987



*** Looping through 5.2. Iter = 2710 


  iteration 2710; minNextMutationTime = 1987; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 309



*** Looping through 5.2. Iter = 2711 


  iteration 2711; minNextMutationTime = 1987.03; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 102



*** Looping through 5.2. Iter = 2712 


  iteration 2712; minNextMutationTime = 1987.04; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 309



*** Looping through 5.2. Iter = 2713 


  iteration 2713; minNextMutationTime = 1987.04; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 134



*** Looping through 5.2. Iter = 2714 


  iteration 2714; minNextMutationTime = 1987.04; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 135



*** Looping through 5.2. Iter = 2715 


  iteration 2715; minNextMutationTime = 1987.08; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 160



*** Looping through 5.2. Iter = 2716 


  iteration 2716; minNextMutationTime = 1987.09; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 468



*** Looping through 5.2. Iter = 2717 


  iteration 2717; minNextMutationTime = 1987.13; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 101



*** Looping through 5.2. Iter = 2718 


  iteration 2718; minNextMutationTime = 1987.13; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 310



*** Looping through 5.2. Iter = 2719 


  iteration 2719; minNextMutationTime = 1987.16; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 167



*** Looping through 5.2. Iter = 2720 


  iteration 2720; minNextMutationTime = 1987.19; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 466



*** Looping through 5.2. Iter = 2721 


  iteration 2721; minNextMutationTime = 1987.19; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 310



*** Looping through 5.2. Iter = 2722 


  iteration 2722; minNextMutationTime = 1987.21; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5293



*** Looping through 5.2. Iter = 2723 


  iteration 2723; minNextMutationTime = 1987.23; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 139



*** Looping through 5.2. Iter = 2724 


  iteration 2724; minNextMutationTime = 1987.3; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 172



*** Looping through 5.2. Iter = 2725 


  iteration 2725; minNextMutationTime = 1987.31; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5317



*** Looping through 5.2. Iter = 2726 


  iteration 2726; minNextMutationTime = 1987.34; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 145



*** Looping through 5.2. Iter = 2727 


  iteration 2727; minNextMutationTime = 1987.35; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 312



*** Looping through 5.2. Iter = 2728 


  iteration 2728; minNextMutationTime = 1987.38; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 466



*** Looping through 5.2. Iter = 2729 


  iteration 2729; minNextMutationTime = 1987.39; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 145



*** Looping through 5.2. Iter = 2730 


  iteration 2730; minNextMutationTime = 1987.4; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 104



*** Looping through 5.2. Iter = 2731 


  iteration 2731; minNextMutationTime = 1987.42; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 317



*** Looping through 5.2. Iter = 2732 


  iteration 2732; minNextMutationTime = 1987.44; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 172



*** Looping through 5.2. Iter = 2733 


  iteration 2733; minNextMutationTime = 1987.44; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5322



*** Looping through 5.2. Iter = 2734 


  iteration 2734; minNextMutationTime = 1987.47; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 171



*** Looping through 5.2. Iter = 2735 


  iteration 2735; minNextMutationTime = 1987.49; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5360



*** Looping through 5.2. Iter = 2736 


  iteration 2736; minNextMutationTime = 1987.5; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5373



*** Looping through 5.2. Iter = 2737 


  iteration 2737; minNextMutationTime = 1987.51; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 105



*** Looping through 5.2. Iter = 2738 


  iteration 2738; minNextMutationTime = 1987.51; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 318



*** Looping through 5.2. Iter = 2739 


  iteration 2739; minNextMutationTime = 1987.56; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 147



*** Looping through 5.2. Iter = 2740 


  iteration 2740; minNextMutationTime = 1987.58; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 104



*** Looping through 5.2. Iter = 2741 


  iteration 2741; minNextMutationTime = 1987.6; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 465



*** Looping through 5.2. Iter = 2742 


  iteration 2742; minNextMutationTime = 1987.63; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 110



*** Looping through 5.2. Iter = 2743 


  iteration 2743; minNextMutationTime = 1987.64; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5393



*** Looping through 5.2. Iter = 2744 


  iteration 2744; minNextMutationTime = 1987.67; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 146



*** Looping through 5.2. Iter = 2745 


  iteration 2745; minNextMutationTime = 1987.68; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 470



*** Looping through 5.2. Iter = 2746 


  iteration 2746; minNextMutationTime = 1987.69; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 470



*** Looping through 5.2. Iter = 2747 


  iteration 2747; minNextMutationTime = 1987.71; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 467



*** Looping through 5.2. Iter = 2748 


  iteration 2748; minNextMutationTime = 1987.71; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5394



*** Looping through 5.2. Iter = 2749 


  iteration 2749; minNextMutationTime = 1987.74; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 459



*** Looping through 5.2. Iter = 2750 


  iteration 2750; minNextMutationTime = 1987.74; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 147



*** Looping through 5.2. Iter = 2751 


  iteration 2751; minNextMutationTime = 1987.74; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 111



*** Looping through 5.2. Iter = 2752 


  iteration 2752; minNextMutationTime = 1987.74; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 460



*** Looping through 5.2. Iter = 2753 


  iteration 2753; minNextMutationTime = 1987.75; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 149



*** Looping through 5.2. Iter = 2754 


  iteration 2754; minNextMutationTime = 1987.76; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 464



*** Looping through 5.2. Iter = 2755 


  iteration 2755; minNextMutationTime = 1987.76; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 112



*** Looping through 5.2. Iter = 2756 


  iteration 2756; minNextMutationTime = 1987.76; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 150



*** Looping through 5.2. Iter = 2757 


  iteration 2757; minNextMutationTime = 1987.79; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 173



*** Looping through 5.2. Iter = 2758 


  iteration 2758; minNextMutationTime = 1987.8; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 152



*** Looping through 5.2. Iter = 2759 


  iteration 2759; minNextMutationTime = 1987.81; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 467



*** Looping through 5.2. Iter = 2760 


  iteration 2760; minNextMutationTime = 1987.81; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5393



*** Looping through 5.2. Iter = 2761 


  iteration 2761; minNextMutationTime = 1987.82; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 317



*** Looping through 5.2. Iter = 2762 


  iteration 2762; minNextMutationTime = 1987.84; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5415



*** Looping through 5.2. Iter = 2763 


  iteration 2763; minNextMutationTime = 1987.85; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 113



*** Looping through 5.2. Iter = 2764 


  iteration 2764; minNextMutationTime = 1987.89; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5445



*** Looping through 5.2. Iter = 2765 


  iteration 2765; minNextMutationTime = 1987.9; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 149



*** Looping through 5.2. Iter = 2766 


  iteration 2766; minNextMutationTime = 1987.93; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 175



*** Looping through 5.2. Iter = 2767 


  iteration 2767; minNextMutationTime = 1987.93; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 114



*** Looping through 5.2. Iter = 2768 


  iteration 2768; minNextMutationTime = 1987.93; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 176



*** Looping through 5.2. Iter = 2769 


  iteration 2769; minNextMutationTime = 1987.95; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 148



*** Looping through 5.2. Iter = 2770 


  iteration 2770; minNextMutationTime = 1987.95; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5446



*** Looping through 5.2. Iter = 2771 


  iteration 2771; minNextMutationTime = 1987.98; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 115



*** Looping through 5.2. Iter = 2772 


  iteration 2772; minNextMutationTime = 1987.99; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 470



*** Looping through 5.2. Iter = 2773 


  iteration 2773; minNextMutationTime = 1988; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 149



*** Looping through 5.2. Iter = 2774 


  iteration 2774; minNextMutationTime = 1998; timeNextPopSample = 1988; popParams.size() = 9

 We are SAMPLING at time 1988



*** Looping through 5.2. Iter = 2775 


  iteration 2775; minNextMutationTime = 1988; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 114



*** Looping through 5.2. Iter = 2776 


  iteration 2776; minNextMutationTime = 1988; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5450



*** Looping through 5.2. Iter = 2777 


  iteration 2777; minNextMutationTime = 1988.02; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 475



*** Looping through 5.2. Iter = 2778 


  iteration 2778; minNextMutationTime = 1988.04; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 179



*** Looping through 5.2. Iter = 2779 


  iteration 2779; minNextMutationTime = 1988.04; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 474



*** Looping through 5.2. Iter = 2780 


  iteration 2780; minNextMutationTime = 1988.06; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 313



*** Looping through 5.2. Iter = 2781 


  iteration 2781; minNextMutationTime = 1988.06; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 115



*** Looping through 5.2. Iter = 2782 


  iteration 2782; minNextMutationTime = 1988.07; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 315



*** Looping through 5.2. Iter = 2783 


  iteration 2783; minNextMutationTime = 1988.08; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 149



*** Looping through 5.2. Iter = 2784 


  iteration 2784; minNextMutationTime = 1988.09; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 114



*** Looping through 5.2. Iter = 2785 


  iteration 2785; minNextMutationTime = 1988.1; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 114



*** Looping through 5.2. Iter = 2786 


  iteration 2786; minNextMutationTime = 1988.12; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5464



*** Looping through 5.2. Iter = 2787 


  iteration 2787; minNextMutationTime = 1988.14; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 153



*** Looping through 5.2. Iter = 2788 


  iteration 2788; minNextMutationTime = 1988.14; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 154



*** Looping through 5.2. Iter = 2789 


  iteration 2789; minNextMutationTime = 1988.18; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5478



*** Looping through 5.2. Iter = 2790 


  iteration 2790; minNextMutationTime = 1988.2; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 114



*** Looping through 5.2. Iter = 2791 


  iteration 2791; minNextMutationTime = 1988.22; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 156



*** Looping through 5.2. Iter = 2792 


  iteration 2792; minNextMutationTime = 1988.23; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 115



*** Looping through 5.2. Iter = 2793 


  iteration 2793; minNextMutationTime = 1988.23; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 318



*** Looping through 5.2. Iter = 2794 


  iteration 2794; minNextMutationTime = 1988.24; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 181



*** Looping through 5.2. Iter = 2795 


  iteration 2795; minNextMutationTime = 1988.24; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 116



*** Looping through 5.2. Iter = 2796 


  iteration 2796; minNextMutationTime = 1988.25; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 318



*** Looping through 5.2. Iter = 2797 


  iteration 2797; minNextMutationTime = 1988.27; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 321



*** Looping through 5.2. Iter = 2798 


  iteration 2798; minNextMutationTime = 1988.28; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 156



*** Looping through 5.2. Iter = 2799 


  iteration 2799; minNextMutationTime = 1988.29; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5474



*** Looping through 5.2. Iter = 2800 


  iteration 2800; minNextMutationTime = 1988.29; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 323



*** Looping through 5.2. Iter = 2801 


  iteration 2801; minNextMutationTime = 1988.29; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 117



*** Looping through 5.2. Iter = 2802 


  iteration 2802; minNextMutationTime = 1988.35; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 486



*** Looping through 5.2. Iter = 2803 


  iteration 2803; minNextMutationTime = 1988.37; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 155



*** Looping through 5.2. Iter = 2804 


  iteration 2804; minNextMutationTime = 1988.41; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 338



*** Looping through 5.2. Iter = 2805 


  iteration 2805; minNextMutationTime = 1988.44; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 345



*** Looping through 5.2. Iter = 2806 


  iteration 2806; minNextMutationTime = 1988.47; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 488



*** Looping through 5.2. Iter = 2807 


  iteration 2807; minNextMutationTime = 1988.49; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 346



*** Looping through 5.2. Iter = 2808 


  iteration 2808; minNextMutationTime = 1988.51; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 345



*** Looping through 5.2. Iter = 2809 


  iteration 2809; minNextMutationTime = 1988.52; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 120



*** Looping through 5.2. Iter = 2810 


  iteration 2810; minNextMutationTime = 1988.54; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 179



*** Looping through 5.2. Iter = 2811 


  iteration 2811; minNextMutationTime = 1988.54; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 181



*** Looping through 5.2. Iter = 2812 


  iteration 2812; minNextMutationTime = 1988.57; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 498



*** Looping through 5.2. Iter = 2813 


  iteration 2813; minNextMutationTime = 1988.57; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 158



*** Looping through 5.2. Iter = 2814 


  iteration 2814; minNextMutationTime = 1988.58; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 182



*** Looping through 5.2. Iter = 2815 


  iteration 2815; minNextMutationTime = 1988.58; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 120



*** Looping through 5.2. Iter = 2816 


  iteration 2816; minNextMutationTime = 1988.59; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 122



*** Looping through 5.2. Iter = 2817 


  iteration 2817; minNextMutationTime = 1988.59; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 122



*** Looping through 5.2. Iter = 2818 


  iteration 2818; minNextMutationTime = 1988.63; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5542



*** Looping through 5.2. Iter = 2819 


  iteration 2819; minNextMutationTime = 1988.65; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 123



*** Looping through 5.2. Iter = 2820 


  iteration 2820; minNextMutationTime = 1988.66; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5565



*** Looping through 5.2. Iter = 2821 


  iteration 2821; minNextMutationTime = 1988.67; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5572



*** Looping through 5.2. Iter = 2822 


  iteration 2822; minNextMutationTime = 1988.71; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 155



*** Looping through 5.2. Iter = 2823 


  iteration 2823; minNextMutationTime = 1988.71; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 346



*** Looping through 5.2. Iter = 2824 


  iteration 2824; minNextMutationTime = 1988.72; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 122



*** Looping through 5.2. Iter = 2825 


  iteration 2825; minNextMutationTime = 1988.76; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 152



*** Looping through 5.2. Iter = 2826 


  iteration 2826; minNextMutationTime = 1988.76; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 348



*** Looping through 5.2. Iter = 2827 


  iteration 2827; minNextMutationTime = 1988.77; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 351



*** Looping through 5.2. Iter = 2828 


  iteration 2828; minNextMutationTime = 1988.79; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 501



*** Looping through 5.2. Iter = 2829 


  iteration 2829; minNextMutationTime = 1988.79; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5573



*** Looping through 5.2. Iter = 2830 


  iteration 2830; minNextMutationTime = 1988.81; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5568



*** Looping through 5.2. Iter = 2831 


  iteration 2831; minNextMutationTime = 1988.82; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 155



*** Looping through 5.2. Iter = 2832 


  iteration 2832; minNextMutationTime = 1988.83; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 182



*** Looping through 5.2. Iter = 2833 


  iteration 2833; minNextMutationTime = 1988.83; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 352



*** Looping through 5.2. Iter = 2834 


  iteration 2834; minNextMutationTime = 1988.83; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 503



*** Looping through 5.2. Iter = 2835 


  iteration 2835; minNextMutationTime = 1988.87; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 157



*** Looping through 5.2. Iter = 2836 


  iteration 2836; minNextMutationTime = 1988.88; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 158



*** Looping through 5.2. Iter = 2837 


  iteration 2837; minNextMutationTime = 1988.89; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 159



*** Looping through 5.2. Iter = 2838 


  iteration 2838; minNextMutationTime = 1988.91; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 509



*** Looping through 5.2. Iter = 2839 


  iteration 2839; minNextMutationTime = 1988.94; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5653



*** Looping through 5.2. Iter = 2840 


  iteration 2840; minNextMutationTime = 1988.96; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 124



*** Looping through 5.2. Iter = 2841 


  iteration 2841; minNextMutationTime = 1988.96; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 125



*** Looping through 5.2. Iter = 2842 


  iteration 2842; minNextMutationTime = 1988.96; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 510



*** Looping through 5.2. Iter = 2843 


  iteration 2843; minNextMutationTime = 1988.96; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 511



*** Looping through 5.2. Iter = 2844 


  iteration 2844; minNextMutationTime = 1988.97; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5683



*** Looping through 5.2. Iter = 2845 


  iteration 2845; minNextMutationTime = 1988.98; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5702



*** Looping through 5.2. Iter = 2846 


  iteration 2846; minNextMutationTime = 1988.99; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 186



*** Looping through 5.2. Iter = 2847 


  iteration 2847; minNextMutationTime = 1988.99; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 514



*** Looping through 5.2. Iter = 2848 


  iteration 2848; minNextMutationTime = 1999; timeNextPopSample = 1989; popParams.size() = 9

 We are SAMPLING at time 1989



*** Looping through 5.2. Iter = 2849 


  iteration 2849; minNextMutationTime = 1989.01; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5697



*** Looping through 5.2. Iter = 2850 


  iteration 2850; minNextMutationTime = 1989.03; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 157



*** Looping through 5.2. Iter = 2851 


  iteration 2851; minNextMutationTime = 1989.03; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 128



*** Looping through 5.2. Iter = 2852 


  iteration 2852; minNextMutationTime = 1989.03; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 519



*** Looping through 5.2. Iter = 2853 


  iteration 2853; minNextMutationTime = 1989.04; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 156



*** Looping through 5.2. Iter = 2854 


  iteration 2854; minNextMutationTime = 1989.04; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 129



*** Looping through 5.2. Iter = 2855 


  iteration 2855; minNextMutationTime = 1989.06; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5695



*** Looping through 5.2. Iter = 2856 


  iteration 2856; minNextMutationTime = 1989.07; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 159



*** Looping through 5.2. Iter = 2857 


  iteration 2857; minNextMutationTime = 1989.09; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 193



*** Looping through 5.2. Iter = 2858 


  iteration 2858; minNextMutationTime = 1989.11; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 157



*** Looping through 5.2. Iter = 2859 


  iteration 2859; minNextMutationTime = 1989.11; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5694



*** Looping through 5.2. Iter = 2860 


  iteration 2860; minNextMutationTime = 1989.14; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 165



*** Looping through 5.2. Iter = 2861 


  iteration 2861; minNextMutationTime = 1989.15; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 354



*** Looping through 5.2. Iter = 2862 


  iteration 2862; minNextMutationTime = 1989.16; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 516



*** Looping through 5.2. Iter = 2863 


  iteration 2863; minNextMutationTime = 1989.17; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 164



*** Looping through 5.2. Iter = 2864 


  iteration 2864; minNextMutationTime = 1989.17; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 355



*** Looping through 5.2. Iter = 2865 


  iteration 2865; minNextMutationTime = 1989.18; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 518



*** Looping through 5.2. Iter = 2866 


  iteration 2866; minNextMutationTime = 1989.18; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 520



*** Looping through 5.2. Iter = 2867 


  iteration 2867; minNextMutationTime = 1989.19; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 131



*** Looping through 5.2. Iter = 2868 


  iteration 2868; minNextMutationTime = 1989.19; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 132



*** Looping through 5.2. Iter = 2869 


  iteration 2869; minNextMutationTime = 1989.21; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 193



*** Looping through 5.2. Iter = 2870 


  iteration 2870; minNextMutationTime = 1989.23; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 365



*** Looping through 5.2. Iter = 2871 


  iteration 2871; minNextMutationTime = 1989.25; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 369



*** Looping through 5.2. Iter = 2872 


  iteration 2872; minNextMutationTime = 1989.25; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5697



*** Looping through 5.2. Iter = 2873 


  iteration 2873; minNextMutationTime = 1989.26; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 194



*** Looping through 5.2. Iter = 2874 


  iteration 2874; minNextMutationTime = 1989.26; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 520



*** Looping through 5.2. Iter = 2875 


  iteration 2875; minNextMutationTime = 1989.29; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 164



*** Looping through 5.2. Iter = 2876 


  iteration 2876; minNextMutationTime = 1989.3; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 525



*** Looping through 5.2. Iter = 2877 


  iteration 2877; minNextMutationTime = 1989.32; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 525



*** Looping through 5.2. Iter = 2878 


  iteration 2878; minNextMutationTime = 1989.33; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 524



*** Looping through 5.2. Iter = 2879 


  iteration 2879; minNextMutationTime = 1989.33; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 371



*** Looping through 5.2. Iter = 2880 


  iteration 2880; minNextMutationTime = 1989.35; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 375



*** Looping through 5.2. Iter = 2881 


  iteration 2881; minNextMutationTime = 1989.37; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 197



*** Looping through 5.2. Iter = 2882 


  iteration 2882; minNextMutationTime = 1989.4; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 167



*** Looping through 5.2. Iter = 2883 


  iteration 2883; minNextMutationTime = 1989.41; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 377



*** Looping through 5.2. Iter = 2884 


  iteration 2884; minNextMutationTime = 1989.41; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 526



*** Looping through 5.2. Iter = 2885 


  iteration 2885; minNextMutationTime = 1989.42; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 531



*** Looping through 5.2. Iter = 2886 


  iteration 2886; minNextMutationTime = 1989.43; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 535



*** Looping through 5.2. Iter = 2887 


  iteration 2887; minNextMutationTime = 1989.44; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 203



*** Looping through 5.2. Iter = 2888 


  iteration 2888; minNextMutationTime = 1989.45; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 205



*** Looping through 5.2. Iter = 2889 


  iteration 2889; minNextMutationTime = 1989.52; timeNextPopSample = 1990; popParams.size() = 9

     Creating new species   9         from species 0


*** Looping through 5.2. Iter = 2890 


  iteration 2890; minNextMutationTime = 1989.55; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 536



*** Looping through 5.2. Iter = 2891 


  iteration 2891; minNextMutationTime = 1989.55; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 538



*** Looping through 5.2. Iter = 2892 


  iteration 2892; minNextMutationTime = 1989.56; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 131



*** Looping through 5.2. Iter = 2893 


  iteration 2893; minNextMutationTime = 1989.56; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 404



*** Looping through 5.2. Iter = 2894 


  iteration 2894; minNextMutationTime = 1989.58; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 534



*** Looping through 5.2. Iter = 2895 


  iteration 2895; minNextMutationTime = 1989.58; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 131



*** Looping through 5.2. Iter = 2896 


  iteration 2896; minNextMutationTime = 1989.62; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 540



*** Looping through 5.2. Iter = 2897 


  iteration 2897; minNextMutationTime = 1989.62; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 168



*** Looping through 5.2. Iter = 2898 


  iteration 2898; minNextMutationTime = 1989.63; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 419



*** Looping through 5.2. Iter = 2899 


  iteration 2899; minNextMutationTime = 1989.64; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 170



*** Looping through 5.2. Iter = 2900 


  iteration 2900; minNextMutationTime = 1989.65; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 546



*** Looping through 5.2. Iter = 2901 


  iteration 2901; minNextMutationTime = 1989.67; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 541



*** Looping through 5.2. Iter = 2902 


  iteration 2902; minNextMutationTime = 1989.67; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 143



*** Looping through 5.2. Iter = 2903 


  iteration 2903; minNextMutationTime = 1989.68; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6015



*** Looping through 5.2. Iter = 2904 


  iteration 2904; minNextMutationTime = 1989.68; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 144



*** Looping through 5.2. Iter = 2905 


  iteration 2905; minNextMutationTime = 1989.68; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 169



*** Looping through 5.2. Iter = 2906 


  iteration 2906; minNextMutationTime = 1989.68; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 548



*** Looping through 5.2. Iter = 2907 


  iteration 2907; minNextMutationTime = 1989.7; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 553



*** Looping through 5.2. Iter = 2908 


  iteration 2908; minNextMutationTime = 1989.71; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 144



*** Looping through 5.2. Iter = 2909 


  iteration 2909; minNextMutationTime = 1989.72; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 431



*** Looping through 5.2. Iter = 2910 


  iteration 2910; minNextMutationTime = 1989.73; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 432



*** Looping through 5.2. Iter = 2911 


  iteration 2911; minNextMutationTime = 1989.74; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 217



*** Looping through 5.2. Iter = 2912 


  iteration 2912; minNextMutationTime = 1989.75; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 220



*** Looping through 5.2. Iter = 2913 


  iteration 2913; minNextMutationTime = 1989.77; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 219



*** Looping through 5.2. Iter = 2914 


  iteration 2914; minNextMutationTime = 1989.78; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 170



*** Looping through 5.2. Iter = 2915 


  iteration 2915; minNextMutationTime = 1989.78; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 172



*** Looping through 5.2. Iter = 2916 


  iteration 2916; minNextMutationTime = 1989.79; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 172



*** Looping through 5.2. Iter = 2917 


  iteration 2917; minNextMutationTime = 1989.79; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 432



*** Looping through 5.2. Iter = 2918 


  iteration 2918; minNextMutationTime = 1989.81; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 173



*** Looping through 5.2. Iter = 2919 


  iteration 2919; minNextMutationTime = 1989.84; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 439



*** Looping through 5.2. Iter = 2920 


  iteration 2920; minNextMutationTime = 1989.86; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 220



*** Looping through 5.2. Iter = 2921 


  iteration 2921; minNextMutationTime = 1989.88; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 228



*** Looping through 5.2. Iter = 2922 


  iteration 2922; minNextMutationTime = 1989.89; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 174



*** Looping through 5.2. Iter = 2923 


  iteration 2923; minNextMutationTime = 1989.93; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 147



*** Looping through 5.2. Iter = 2924 


  iteration 2924; minNextMutationTime = 1989.94; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 454



*** Looping through 5.2. Iter = 2925 


  iteration 2925; minNextMutationTime = 1989.95; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6372



*** Looping through 5.2. Iter = 2926 


  iteration 2926; minNextMutationTime = 1989.96; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 149



*** Looping through 5.2. Iter = 2927 


  iteration 2927; minNextMutationTime = 1989.99; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 235



*** Looping through 5.2. Iter = 2928 


  iteration 2928; minNextMutationTime = 1989.99; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6458



*** Looping through 5.2. Iter = 2929 


  iteration 2929; minNextMutationTime = 1990; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6463



*** Looping through 5.2. Iter = 2930 


  iteration 2930; minNextMutationTime = 1990; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 188



*** Looping through 5.2. Iter = 2931 


  iteration 2931; minNextMutationTime = 2000; timeNextPopSample = 1990; popParams.size() = 10

 We are SAMPLING at time 1990



*** Looping through 5.2. Iter = 2932 


  iteration 2932; minNextMutationTime = 1990.01; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 236



*** Looping through 5.2. Iter = 2933 


  iteration 2933; minNextMutationTime = 1990.01; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 153



*** Looping through 5.2. Iter = 2934 


  iteration 2934; minNextMutationTime = 1990.01; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 583



*** Looping through 5.2. Iter = 2935 


  iteration 2935; minNextMutationTime = 1990.02; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 153



*** Looping through 5.2. Iter = 2936 


  iteration 2936; minNextMutationTime = 1990.03; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6464



*** Looping through 5.2. Iter = 2937 


  iteration 2937; minNextMutationTime = 1990.04; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6479



*** Looping through 5.2. Iter = 2938 


  iteration 2938; minNextMutationTime = 1990.04; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 237



*** Looping through 5.2. Iter = 2939 


  iteration 2939; minNextMutationTime = 1990.07; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 469



*** Looping through 5.2. Iter = 2940 


  iteration 2940; minNextMutationTime = 1990.07; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 583



*** Looping through 5.2. Iter = 2941 


  iteration 2941; minNextMutationTime = 1990.08; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 474



*** Looping through 5.2. Iter = 2942 


  iteration 2942; minNextMutationTime = 1990.09; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 192



*** Looping through 5.2. Iter = 2943 


  iteration 2943; minNextMutationTime = 1990.1; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 240



*** Looping through 5.2. Iter = 2944 


  iteration 2944; minNextMutationTime = 1990.14; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 476



*** Looping through 5.2. Iter = 2945 


  iteration 2945; minNextMutationTime = 1990.23; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 510



*** Looping through 5.2. Iter = 2946 


  iteration 2946; minNextMutationTime = 1990.24; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 153



*** Looping through 5.2. Iter = 2947 


  iteration 2947; minNextMutationTime = 1990.24; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 155



*** Looping through 5.2. Iter = 2948 


  iteration 2948; minNextMutationTime = 1990.26; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 503



*** Looping through 5.2. Iter = 2949 


  iteration 2949; minNextMutationTime = 1990.27; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 506



*** Looping through 5.2. Iter = 2950 


  iteration 2950; minNextMutationTime = 1990.28; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 503



*** Looping through 5.2. Iter = 2951 


  iteration 2951; minNextMutationTime = 1990.29; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 159



*** Looping through 5.2. Iter = 2952 


  iteration 2952; minNextMutationTime = 1990.32; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 194



*** Looping through 5.2. Iter = 2953 


  iteration 2953; minNextMutationTime = 1990.34; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6515



*** Looping through 5.2. Iter = 2954 


  iteration 2954; minNextMutationTime = 1990.36; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 192



*** Looping through 5.2. Iter = 2955 


  iteration 2955; minNextMutationTime = 1990.38; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 503



*** Looping through 5.2. Iter = 2956 


  iteration 2956; minNextMutationTime = 1990.38; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6523



*** Looping through 5.2. Iter = 2957 


  iteration 2957; minNextMutationTime = 1990.39; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 159



*** Looping through 5.2. Iter = 2958 


  iteration 2958; minNextMutationTime = 1990.39; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 160



*** Looping through 5.2. Iter = 2959 


  iteration 2959; minNextMutationTime = 1990.45; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 160



*** Looping through 5.2. Iter = 2960 


  iteration 2960; minNextMutationTime = 1990.47; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 189



*** Looping through 5.2. Iter = 2961 


  iteration 2961; minNextMutationTime = 1990.48; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 585



*** Looping through 5.2. Iter = 2962 


  iteration 2962; minNextMutationTime = 1990.48; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 187



*** Looping through 5.2. Iter = 2963 


  iteration 2963; minNextMutationTime = 1990.5; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 509



*** Looping through 5.2. Iter = 2964 


  iteration 2964; minNextMutationTime = 1990.53; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 511



*** Looping through 5.2. Iter = 2965 


  iteration 2965; minNextMutationTime = 1990.53; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 188



*** Looping through 5.2. Iter = 2966 


  iteration 2966; minNextMutationTime = 1990.56; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 241



*** Looping through 5.2. Iter = 2967 


  iteration 2967; minNextMutationTime = 1990.56; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 190



*** Looping through 5.2. Iter = 2968 


  iteration 2968; minNextMutationTime = 1990.56; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 243



*** Looping through 5.2. Iter = 2969 


  iteration 2969; minNextMutationTime = 1990.64; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 245



*** Looping through 5.2. Iter = 2970 


  iteration 2970; minNextMutationTime = 1990.65; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 246



*** Looping through 5.2. Iter = 2971 


  iteration 2971; minNextMutationTime = 1990.68; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 253



*** Looping through 5.2. Iter = 2972 


  iteration 2972; minNextMutationTime = 1990.68; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 586



*** Looping through 5.2. Iter = 2973 


  iteration 2973; minNextMutationTime = 1990.69; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 189



*** Looping through 5.2. Iter = 2974 


  iteration 2974; minNextMutationTime = 1990.69; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6526



*** Looping through 5.2. Iter = 2975 


  iteration 2975; minNextMutationTime = 1990.7; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 160



*** Looping through 5.2. Iter = 2976 


  iteration 2976; minNextMutationTime = 1990.7; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 161



*** Looping through 5.2. Iter = 2977 


  iteration 2977; minNextMutationTime = 1990.72; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 162



*** Looping through 5.2. Iter = 2978 


  iteration 2978; minNextMutationTime = 1990.82; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 163



*** Looping through 5.2. Iter = 2979 


  iteration 2979; minNextMutationTime = 1990.82; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 587



*** Looping through 5.2. Iter = 2980 


  iteration 2980; minNextMutationTime = 1990.83; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6523



*** Looping through 5.2. Iter = 2981 


  iteration 2981; minNextMutationTime = 1990.86; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 591



*** Looping through 5.2. Iter = 2982 


  iteration 2982; minNextMutationTime = 1990.86; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 164



*** Looping through 5.2. Iter = 2983 


  iteration 2983; minNextMutationTime = 1990.87; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 512



*** Looping through 5.2. Iter = 2984 


  iteration 2984; minNextMutationTime = 1990.87; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 252



*** Looping through 5.2. Iter = 2985 


  iteration 2985; minNextMutationTime = 1990.88; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 189



*** Looping through 5.2. Iter = 2986 


  iteration 2986; minNextMutationTime = 1990.89; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 192



*** Looping through 5.2. Iter = 2987 


  iteration 2987; minNextMutationTime = 1990.92; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 254



*** Looping through 5.2. Iter = 2988 


  iteration 2988; minNextMutationTime = 1990.93; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 165



*** Looping through 5.2. Iter = 2989 


  iteration 2989; minNextMutationTime = 1990.93; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 255



*** Looping through 5.2. Iter = 2990 


  iteration 2990; minNextMutationTime = 1990.98; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 598



*** Looping through 5.2. Iter = 2991 


  iteration 2991; minNextMutationTime = 1990.99; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 253



*** Looping through 5.2. Iter = 2992 


  iteration 2992; minNextMutationTime = 1991; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6525



*** Looping through 5.2. Iter = 2993 


  iteration 2993; minNextMutationTime = 2001; timeNextPopSample = 1991; popParams.size() = 9

 We are SAMPLING at time 1991



*** Looping through 5.2. Iter = 2994 


  iteration 2994; minNextMutationTime = 1991.02; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 167



*** Looping through 5.2. Iter = 2995 


  iteration 2995; minNextMutationTime = 1991.04; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 259



*** Looping through 5.2. Iter = 2996 


  iteration 2996; minNextMutationTime = 1991.05; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 522



*** Looping through 5.2. Iter = 2997 


  iteration 2997; minNextMutationTime = 1991.06; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 522



*** Looping through 5.2. Iter = 2998 


  iteration 2998; minNextMutationTime = 1991.1; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 526



*** Looping through 5.2. Iter = 2999 


  iteration 2999; minNextMutationTime = 1991.13; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 167


    ... iteration 3000
    ... currentTime 1991.13



*** Looping through 5.2. Iter = 3000 


  iteration 3000; minNextMutationTime = 1991.14; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 192



*** Looping through 5.2. Iter = 3001 


  iteration 3001; minNextMutationTime = 1991.14; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 192



*** Looping through 5.2. Iter = 3002 


  iteration 3002; minNextMutationTime = 1991.15; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 263



*** Looping through 5.2. Iter = 3003 


  iteration 3003; minNextMutationTime = 1991.15; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 598



*** Looping through 5.2. Iter = 3004 


  iteration 3004; minNextMutationTime = 1991.16; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 194



*** Looping through 5.2. Iter = 3005 


  iteration 3005; minNextMutationTime = 1991.16; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 526



*** Looping through 5.2. Iter = 3006 


  iteration 3006; minNextMutationTime = 1991.17; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 263



*** Looping through 5.2. Iter = 3007 


  iteration 3007; minNextMutationTime = 1991.17; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 194



*** Looping through 5.2. Iter = 3008 


  iteration 3008; minNextMutationTime = 1991.18; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 194



*** Looping through 5.2. Iter = 3009 


  iteration 3009; minNextMutationTime = 1991.19; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 608



*** Looping through 5.2. Iter = 3010 


  iteration 3010; minNextMutationTime = 1991.19; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 607



*** Looping through 5.2. Iter = 3011 


  iteration 3011; minNextMutationTime = 1991.2; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 266



*** Looping through 5.2. Iter = 3012 


  iteration 3012; minNextMutationTime = 1991.2; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 527



*** Looping through 5.2. Iter = 3013 


  iteration 3013; minNextMutationTime = 1991.21; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 266



*** Looping through 5.2. Iter = 3014 


  iteration 3014; minNextMutationTime = 1991.23; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 268



*** Looping through 5.2. Iter = 3015 


  iteration 3015; minNextMutationTime = 1991.23; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 167



*** Looping through 5.2. Iter = 3016 


  iteration 3016; minNextMutationTime = 1991.24; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 195



*** Looping through 5.2. Iter = 3017 


  iteration 3017; minNextMutationTime = 1991.26; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6577



*** Looping through 5.2. Iter = 3018 


  iteration 3018; minNextMutationTime = 1991.27; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 529



*** Looping through 5.2. Iter = 3019 


  iteration 3019; minNextMutationTime = 1991.28; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 198



*** Looping through 5.2. Iter = 3020 


  iteration 3020; minNextMutationTime = 1991.29; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 271



*** Looping through 5.2. Iter = 3021 


  iteration 3021; minNextMutationTime = 1991.3; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 530



*** Looping through 5.2. Iter = 3022 


  iteration 3022; minNextMutationTime = 1991.32; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 614



*** Looping through 5.2. Iter = 3023 


  iteration 3023; minNextMutationTime = 1991.32; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 271



*** Looping through 5.2. Iter = 3024 


  iteration 3024; minNextMutationTime = 1991.35; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 165



*** Looping through 5.2. Iter = 3025 


  iteration 3025; minNextMutationTime = 1991.35; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 197



*** Looping through 5.2. Iter = 3026 


  iteration 3026; minNextMutationTime = 1991.36; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 273



*** Looping through 5.2. Iter = 3027 


  iteration 3027; minNextMutationTime = 1991.38; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 271



*** Looping through 5.2. Iter = 3028 


  iteration 3028; minNextMutationTime = 1991.38; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 615



*** Looping through 5.2. Iter = 3029 


  iteration 3029; minNextMutationTime = 1991.41; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 620



*** Looping through 5.2. Iter = 3030 


  iteration 3030; minNextMutationTime = 1991.42; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 167



*** Looping through 5.2. Iter = 3031 


  iteration 3031; minNextMutationTime = 1991.42; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 532



*** Looping through 5.2. Iter = 3032 


  iteration 3032; minNextMutationTime = 1991.45; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 550



*** Looping through 5.2. Iter = 3033 


  iteration 3033; minNextMutationTime = 1991.46; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 558



*** Looping through 5.2. Iter = 3034 


  iteration 3034; minNextMutationTime = 1991.46; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 168



*** Looping through 5.2. Iter = 3035 


  iteration 3035; minNextMutationTime = 1991.47; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 271



*** Looping through 5.2. Iter = 3036 


  iteration 3036; minNextMutationTime = 1991.48; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 271



*** Looping through 5.2. Iter = 3037 


  iteration 3037; minNextMutationTime = 1991.53; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6701



*** Looping through 5.2. Iter = 3038 


  iteration 3038; minNextMutationTime = 1991.57; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 628



*** Looping through 5.2. Iter = 3039 


  iteration 3039; minNextMutationTime = 1991.57; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6716



*** Looping through 5.2. Iter = 3040 


  iteration 3040; minNextMutationTime = 1991.59; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6729



*** Looping through 5.2. Iter = 3041 


  iteration 3041; minNextMutationTime = 1991.59; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 169



*** Looping through 5.2. Iter = 3042 


  iteration 3042; minNextMutationTime = 1991.6; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 556



*** Looping through 5.2. Iter = 3043 


  iteration 3043; minNextMutationTime = 1991.61; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6737



*** Looping through 5.2. Iter = 3044 


  iteration 3044; minNextMutationTime = 1991.62; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 557



*** Looping through 5.2. Iter = 3045 


  iteration 3045; minNextMutationTime = 1991.62; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 629



*** Looping through 5.2. Iter = 3046 


  iteration 3046; minNextMutationTime = 1991.63; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 270



*** Looping through 5.2. Iter = 3047 


  iteration 3047; minNextMutationTime = 1991.64; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 199



*** Looping through 5.2. Iter = 3048 


  iteration 3048; minNextMutationTime = 1991.66; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 168



*** Looping through 5.2. Iter = 3049 


  iteration 3049; minNextMutationTime = 1991.67; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 169



*** Looping through 5.2. Iter = 3050 


  iteration 3050; minNextMutationTime = 1991.67; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6735



*** Looping through 5.2. Iter = 3051 


  iteration 3051; minNextMutationTime = 1991.67; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 559



*** Looping through 5.2. Iter = 3052 


  iteration 3052; minNextMutationTime = 1991.68; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 275



*** Looping through 5.2. Iter = 3053 


  iteration 3053; minNextMutationTime = 1991.69; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6737



*** Looping through 5.2. Iter = 3054 


  iteration 3054; minNextMutationTime = 1991.69; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 630



*** Looping through 5.2. Iter = 3055 


  iteration 3055; minNextMutationTime = 1991.7; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 566



*** Looping through 5.2. Iter = 3056 


  iteration 3056; minNextMutationTime = 1991.7; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 278



*** Looping through 5.2. Iter = 3057 


  iteration 3057; minNextMutationTime = 1991.71; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 566



*** Looping through 5.2. Iter = 3058 


  iteration 3058; minNextMutationTime = 1991.72; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 566



*** Looping through 5.2. Iter = 3059 


  iteration 3059; minNextMutationTime = 1991.73; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 279



*** Looping through 5.2. Iter = 3060 


  iteration 3060; minNextMutationTime = 1991.73; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6734



*** Looping through 5.2. Iter = 3061 


  iteration 3061; minNextMutationTime = 1991.74; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 168



*** Looping through 5.2. Iter = 3062 


  iteration 3062; minNextMutationTime = 1991.75; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 200



*** Looping through 5.2. Iter = 3063 


  iteration 3063; minNextMutationTime = 1991.75; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 201



*** Looping through 5.2. Iter = 3064 


  iteration 3064; minNextMutationTime = 1991.77; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 276



*** Looping through 5.2. Iter = 3065 


  iteration 3065; minNextMutationTime = 1991.77; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 631



*** Looping through 5.2. Iter = 3066 


  iteration 3066; minNextMutationTime = 1991.8; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 568



*** Looping through 5.2. Iter = 3067 


  iteration 3067; minNextMutationTime = 1991.82; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 168



*** Looping through 5.2. Iter = 3068 


  iteration 3068; minNextMutationTime = 1991.84; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 278



*** Looping through 5.2. Iter = 3069 


  iteration 3069; minNextMutationTime = 1991.84; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 170



*** Looping through 5.2. Iter = 3070 


  iteration 3070; minNextMutationTime = 1991.87; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 175



*** Looping through 5.2. Iter = 3071 


  iteration 3071; minNextMutationTime = 1991.88; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 572



*** Looping through 5.2. Iter = 3072 


  iteration 3072; minNextMutationTime = 1991.89; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6729



*** Looping through 5.2. Iter = 3073 


  iteration 3073; minNextMutationTime = 1991.9; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 569



*** Looping through 5.2. Iter = 3074 


  iteration 3074; minNextMutationTime = 1991.91; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 277



*** Looping through 5.2. Iter = 3075 


  iteration 3075; minNextMutationTime = 1991.91; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 567



*** Looping through 5.2. Iter = 3076 


  iteration 3076; minNextMutationTime = 1991.91; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 566



*** Looping through 5.2. Iter = 3077 


  iteration 3077; minNextMutationTime = 1991.93; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 177



*** Looping through 5.2. Iter = 3078 


  iteration 3078; minNextMutationTime = 1991.94; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 178



*** Looping through 5.2. Iter = 3079 


  iteration 3079; minNextMutationTime = 1991.95; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6727



*** Looping through 5.2. Iter = 3080 


  iteration 3080; minNextMutationTime = 1991.95; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 567



*** Looping through 5.2. Iter = 3081 


  iteration 3081; minNextMutationTime = 1991.97; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 200



*** Looping through 5.2. Iter = 3082 


  iteration 3082; minNextMutationTime = 1992; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 582



*** Looping through 5.2. Iter = 3083 


  iteration 3083; minNextMutationTime = 2002; timeNextPopSample = 1992; popParams.size() = 9

 We are SAMPLING at time 1992



*** Looping through 5.2. Iter = 3084 


  iteration 3084; minNextMutationTime = 1992.03; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 648



*** Looping through 5.2. Iter = 3085 


  iteration 3085; minNextMutationTime = 1992.04; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6727



*** Looping through 5.2. Iter = 3086 


  iteration 3086; minNextMutationTime = 1992.04; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6737



*** Looping through 5.2. Iter = 3087 


  iteration 3087; minNextMutationTime = 1992.06; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6771



*** Looping through 5.2. Iter = 3088 


  iteration 3088; minNextMutationTime = 1992.08; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 657



*** Looping through 5.2. Iter = 3089 


  iteration 3089; minNextMutationTime = 1992.09; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6777



*** Looping through 5.2. Iter = 3090 


  iteration 3090; minNextMutationTime = 1992.1; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 283



*** Looping through 5.2. Iter = 3091 


  iteration 3091; minNextMutationTime = 1992.12; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 203



*** Looping through 5.2. Iter = 3092 


  iteration 3092; minNextMutationTime = 1992.12; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 661



*** Looping through 5.2. Iter = 3093 


  iteration 3093; minNextMutationTime = 1992.12; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 664



*** Looping through 5.2. Iter = 3094 


  iteration 3094; minNextMutationTime = 1992.14; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6833



*** Looping through 5.2. Iter = 3095 


  iteration 3095; minNextMutationTime = 1992.14; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 179



*** Looping through 5.2. Iter = 3096 


  iteration 3096; minNextMutationTime = 1992.17; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 666



*** Looping through 5.2. Iter = 3097 


  iteration 3097; minNextMutationTime = 1992.17; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 180



*** Looping through 5.2. Iter = 3098 


  iteration 3098; minNextMutationTime = 1992.2; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 282



*** Looping through 5.2. Iter = 3099 


  iteration 3099; minNextMutationTime = 1992.2; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 587



*** Looping through 5.2. Iter = 3100 


  iteration 3100; minNextMutationTime = 1992.2; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 205



*** Looping through 5.2. Iter = 3101 


  iteration 3101; minNextMutationTime = 1992.21; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 181



*** Looping through 5.2. Iter = 3102 


  iteration 3102; minNextMutationTime = 1992.23; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 206



*** Looping through 5.2. Iter = 3103 


  iteration 3103; minNextMutationTime = 1992.25; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 184



*** Looping through 5.2. Iter = 3104 


  iteration 3104; minNextMutationTime = 1992.25; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 207



*** Looping through 5.2. Iter = 3105 


  iteration 3105; minNextMutationTime = 1992.25; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 590



*** Looping through 5.2. Iter = 3106 


  iteration 3106; minNextMutationTime = 1992.29; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 204



*** Looping through 5.2. Iter = 3107 


  iteration 3107; minNextMutationTime = 1992.29; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 285



*** Looping through 5.2. Iter = 3108 


  iteration 3108; minNextMutationTime = 1992.32; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 182



*** Looping through 5.2. Iter = 3109 


  iteration 3109; minNextMutationTime = 1992.35; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6877



*** Looping through 5.2. Iter = 3110 


  iteration 3110; minNextMutationTime = 1992.35; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6898



*** Looping through 5.2. Iter = 3111 


  iteration 3111; minNextMutationTime = 1992.36; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6899



*** Looping through 5.2. Iter = 3112 


  iteration 3112; minNextMutationTime = 1992.38; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 207



*** Looping through 5.2. Iter = 3113 


  iteration 3113; minNextMutationTime = 1992.38; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 591



*** Looping through 5.2. Iter = 3114 


  iteration 3114; minNextMutationTime = 1992.39; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 592



*** Looping through 5.2. Iter = 3115 


  iteration 3115; minNextMutationTime = 1992.41; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 595



*** Looping through 5.2. Iter = 3116 


  iteration 3116; minNextMutationTime = 1992.42; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 285



*** Looping through 5.2. Iter = 3117 


  iteration 3117; minNextMutationTime = 1992.43; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6907



*** Looping through 5.2. Iter = 3118 


  iteration 3118; minNextMutationTime = 1992.44; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 599



*** Looping through 5.2. Iter = 3119 


  iteration 3119; minNextMutationTime = 1992.46; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 676



*** Looping through 5.2. Iter = 3120 


  iteration 3120; minNextMutationTime = 1992.46; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6927



*** Looping through 5.2. Iter = 3121 


  iteration 3121; minNextMutationTime = 1992.46; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 286



*** Looping through 5.2. Iter = 3122 


  iteration 3122; minNextMutationTime = 1992.48; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 596



*** Looping through 5.2. Iter = 3123 


  iteration 3123; minNextMutationTime = 1992.48; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 183



*** Looping through 5.2. Iter = 3124 


  iteration 3124; minNextMutationTime = 1992.48; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 207



*** Looping through 5.2. Iter = 3125 


  iteration 3125; minNextMutationTime = 1992.48; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 677



*** Looping through 5.2. Iter = 3126 


  iteration 3126; minNextMutationTime = 1992.49; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 601



*** Looping through 5.2. Iter = 3127 


  iteration 3127; minNextMutationTime = 1992.5; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 211



*** Looping through 5.2. Iter = 3128 


  iteration 3128; minNextMutationTime = 1992.52; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 679



*** Looping through 5.2. Iter = 3129 


  iteration 3129; minNextMutationTime = 1992.53; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 678



*** Looping through 5.2. Iter = 3130 


  iteration 3130; minNextMutationTime = 1992.53; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 287



*** Looping through 5.2. Iter = 3131 


  iteration 3131; minNextMutationTime = 1992.54; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 287



*** Looping through 5.2. Iter = 3132 


  iteration 3132; minNextMutationTime = 1992.54; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 212



*** Looping through 5.2. Iter = 3133 


  iteration 3133; minNextMutationTime = 1992.54; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 184



*** Looping through 5.2. Iter = 3134 


  iteration 3134; minNextMutationTime = 1992.55; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 185



*** Looping through 5.2. Iter = 3135 


  iteration 3135; minNextMutationTime = 1992.55; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 213



*** Looping through 5.2. Iter = 3136 


  iteration 3136; minNextMutationTime = 1992.56; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 217



*** Looping through 5.2. Iter = 3137 


  iteration 3137; minNextMutationTime = 1992.56; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 678



*** Looping through 5.2. Iter = 3138 


  iteration 3138; minNextMutationTime = 1992.56; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 599



*** Looping through 5.2. Iter = 3139 


  iteration 3139; minNextMutationTime = 1992.58; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 222



*** Looping through 5.2. Iter = 3140 


  iteration 3140; minNextMutationTime = 1992.6; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 184



*** Looping through 5.2. Iter = 3141 


  iteration 3141; minNextMutationTime = 1992.61; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 679



*** Looping through 5.2. Iter = 3142 


  iteration 3142; minNextMutationTime = 1992.62; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6938



*** Looping through 5.2. Iter = 3143 


  iteration 3143; minNextMutationTime = 1992.62; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 288



*** Looping through 5.2. Iter = 3144 


  iteration 3144; minNextMutationTime = 1992.64; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 297



*** Looping through 5.2. Iter = 3145 


  iteration 3145; minNextMutationTime = 1992.65; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 304



*** Looping through 5.2. Iter = 3146 


  iteration 3146; minNextMutationTime = 1992.66; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 680



*** Looping through 5.2. Iter = 3147 


  iteration 3147; minNextMutationTime = 1992.68; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 606



*** Looping through 5.2. Iter = 3148 


  iteration 3148; minNextMutationTime = 1992.69; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 222



*** Looping through 5.2. Iter = 3149 


  iteration 3149; minNextMutationTime = 1992.69; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 221



*** Looping through 5.2. Iter = 3150 


  iteration 3150; minNextMutationTime = 1992.7; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 304



*** Looping through 5.2. Iter = 3151 


  iteration 3151; minNextMutationTime = 1992.7; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 186



*** Looping through 5.2. Iter = 3152 


  iteration 3152; minNextMutationTime = 1992.74; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 617



*** Looping through 5.2. Iter = 3153 


  iteration 3153; minNextMutationTime = 1992.75; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 618



*** Looping through 5.2. Iter = 3154 


  iteration 3154; minNextMutationTime = 1992.75; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 682



*** Looping through 5.2. Iter = 3155 


  iteration 3155; minNextMutationTime = 1992.75; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 221



*** Looping through 5.2. Iter = 3156 


  iteration 3156; minNextMutationTime = 1992.76; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 187



*** Looping through 5.2. Iter = 3157 


  iteration 3157; minNextMutationTime = 1992.77; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 221



*** Looping through 5.2. Iter = 3158 


  iteration 3158; minNextMutationTime = 1992.78; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6966



*** Looping through 5.2. Iter = 3159 


  iteration 3159; minNextMutationTime = 1992.8; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 188



*** Looping through 5.2. Iter = 3160 


  iteration 3160; minNextMutationTime = 1992.8; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 685



*** Looping through 5.2. Iter = 3161 


  iteration 3161; minNextMutationTime = 1992.82; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 222



*** Looping through 5.2. Iter = 3162 


  iteration 3162; minNextMutationTime = 1992.82; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 304



*** Looping through 5.2. Iter = 3163 


  iteration 3163; minNextMutationTime = 1992.84; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 627



*** Looping through 5.2. Iter = 3164 


  iteration 3164; minNextMutationTime = 1992.84; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6968



*** Looping through 5.2. Iter = 3165 


  iteration 3165; minNextMutationTime = 1992.84; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 628



*** Looping through 5.2. Iter = 3166 


  iteration 3166; minNextMutationTime = 1992.84; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 687



*** Looping through 5.2. Iter = 3167 


  iteration 3167; minNextMutationTime = 1992.86; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 221



*** Looping through 5.2. Iter = 3168 


  iteration 3168; minNextMutationTime = 1992.87; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6970



*** Looping through 5.2. Iter = 3169 


  iteration 3169; minNextMutationTime = 1992.9; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 189



*** Looping through 5.2. Iter = 3170 


  iteration 3170; minNextMutationTime = 1992.91; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6997



*** Looping through 5.2. Iter = 3171 


  iteration 3171; minNextMutationTime = 1992.91; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 304



*** Looping through 5.2. Iter = 3172 


  iteration 3172; minNextMutationTime = 1992.92; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 221



*** Looping through 5.2. Iter = 3173 


  iteration 3173; minNextMutationTime = 1992.92; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 221



*** Looping through 5.2. Iter = 3174 


  iteration 3174; minNextMutationTime = 1992.93; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 222



*** Looping through 5.2. Iter = 3175 


  iteration 3175; minNextMutationTime = 1992.95; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 691



*** Looping through 5.2. Iter = 3176 


  iteration 3176; minNextMutationTime = 1992.97; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 310



*** Looping through 5.2. Iter = 3177 


  iteration 3177; minNextMutationTime = 1992.97; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 223



*** Looping through 5.2. Iter = 3178 


  iteration 3178; minNextMutationTime = 2003; timeNextPopSample = 1993; popParams.size() = 9

 We are SAMPLING at time 1993



*** Looping through 5.2. Iter = 3179 


  iteration 3179; minNextMutationTime = 1993; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 189



*** Looping through 5.2. Iter = 3180 


  iteration 3180; minNextMutationTime = 1993.01; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 702



*** Looping through 5.2. Iter = 3181 


  iteration 3181; minNextMutationTime = 1993.01; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 190



*** Looping through 5.2. Iter = 3182 


  iteration 3182; minNextMutationTime = 1993.02; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 311



*** Looping through 5.2. Iter = 3183 


  iteration 3183; minNextMutationTime = 1993.03; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 7052



*** Looping through 5.2. Iter = 3184 


  iteration 3184; minNextMutationTime = 1993.05; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 636



*** Looping through 5.2. Iter = 3185 


  iteration 3185; minNextMutationTime = 1993.05; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 702



*** Looping through 5.2. Iter = 3186 


  iteration 3186; minNextMutationTime = 1993.07; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 192



*** Looping through 5.2. Iter = 3187 


  iteration 3187; minNextMutationTime = 1993.08; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 640



*** Looping through 5.2. Iter = 3188 


  iteration 3188; minNextMutationTime = 1993.08; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 707



*** Looping through 5.2. Iter = 3189 


  iteration 3189; minNextMutationTime = 1993.09; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 191



*** Looping through 5.2. Iter = 3190 


  iteration 3190; minNextMutationTime = 1993.09; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 641



*** Looping through 5.2. Iter = 3191 


  iteration 3191; minNextMutationTime = 1993.09; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 643



*** Looping through 5.2. Iter = 3192 


  iteration 3192; minNextMutationTime = 1993.1; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 642



*** Looping through 5.2. Iter = 3193 


  iteration 3193; minNextMutationTime = 1993.11; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 229



*** Looping through 5.2. Iter = 3194 


  iteration 3194; minNextMutationTime = 1993.12; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 234



*** Looping through 5.2. Iter = 3195 


  iteration 3195; minNextMutationTime = 1993.13; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 235



*** Looping through 5.2. Iter = 3196 


  iteration 3196; minNextMutationTime = 1993.17; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 191



*** Looping through 5.2. Iter = 3197 


  iteration 3197; minNextMutationTime = 1993.17; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 7052



*** Looping through 5.2. Iter = 3198 


  iteration 3198; minNextMutationTime = 1993.18; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 236



*** Looping through 5.2. Iter = 3199 


  iteration 3199; minNextMutationTime = 1993.18; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 7059



*** Looping through 5.2. Iter = 3200 


  iteration 3200; minNextMutationTime = 1993.18; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 191



*** Looping through 5.2. Iter = 3201 


  iteration 3201; minNextMutationTime = 1993.21; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 318



*** Looping through 5.2. Iter = 3202 


  iteration 3202; minNextMutationTime = 1993.22; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 647



*** Looping through 5.2. Iter = 3203 


  iteration 3203; minNextMutationTime = 1993.22; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 711



*** Looping through 5.2. Iter = 3204 


  iteration 3204; minNextMutationTime = 1993.23; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 318



*** Looping through 5.2. Iter = 3205 


  iteration 3205; minNextMutationTime = 1993.23; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 7057



*** Looping through 5.2. Iter = 3206 


  iteration 3206; minNextMutationTime = 1993.23; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 7067



*** Looping through 5.2. Iter = 3207 


  iteration 3207; minNextMutationTime = 1993.27; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 239



*** Looping through 5.2. Iter = 3208 


  iteration 3208; minNextMutationTime = 1993.32; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 659



*** Looping through 5.2. Iter = 3209 


  iteration 3209; minNextMutationTime = 1993.32; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 711



*** Looping through 5.2. Iter = 3210 


  iteration 3210; minNextMutationTime = 1993.32; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 713



*** Looping through 5.2. Iter = 3211 


  iteration 3211; minNextMutationTime = 1993.33; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 7080



*** Looping through 5.2. Iter = 3212 


  iteration 3212; minNextMutationTime = 1993.34; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 325



*** Looping through 5.2. Iter = 3213 


  iteration 3213; minNextMutationTime = 1993.35; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 714



*** Looping through 5.2. Iter = 3214 


  iteration 3214; minNextMutationTime = 1993.35; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 240



*** Looping through 5.2. Iter = 3215 


  iteration 3215; minNextMutationTime = 1993.36; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 328



*** Looping through 5.2. Iter = 3216 


  iteration 3216; minNextMutationTime = 1993.37; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 241



*** Looping through 5.2. Iter = 3217 


  iteration 3217; minNextMutationTime = 1993.38; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 658



*** Looping through 5.2. Iter = 3218 


  iteration 3218; minNextMutationTime = 1993.39; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 192



*** Looping through 5.2. Iter = 3219 


  iteration 3219; minNextMutationTime = 1993.39; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 193



*** Looping through 5.2. Iter = 3220 


  iteration 3220; minNextMutationTime = 1993.4; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 244



*** Looping through 5.2. Iter = 3221 


  iteration 3221; minNextMutationTime = 1993.4; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 330



*** Looping through 5.2. Iter = 3222 


  iteration 3222; minNextMutationTime = 1993.41; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 658



*** Looping through 5.2. Iter = 3223 


  iteration 3223; minNextMutationTime = 1993.41; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 193



*** Looping through 5.2. Iter = 3224 


  iteration 3224; minNextMutationTime = 1993.43; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 191



*** Looping through 5.2. Iter = 3225 


  iteration 3225; minNextMutationTime = 1993.44; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 242



*** Looping through 5.2. Iter = 3226 


  iteration 3226; minNextMutationTime = 1993.45; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 657



*** Looping through 5.2. Iter = 3227 


  iteration 3227; minNextMutationTime = 1993.45; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 657



*** Looping through 5.2. Iter = 3228 


  iteration 3228; minNextMutationTime = 1993.47; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 659



*** Looping through 5.2. Iter = 3229 


  iteration 3229; minNextMutationTime = 1993.48; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 331



*** Looping through 5.2. Iter = 3230 


  iteration 3230; minNextMutationTime = 1993.5; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 335



*** Looping through 5.2. Iter = 3231 


  iteration 3231; minNextMutationTime = 1993.51; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 717



*** Looping through 5.2. Iter = 3232 


  iteration 3232; minNextMutationTime = 1993.51; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 336



*** Looping through 5.2. Iter = 3233 


  iteration 3233; minNextMutationTime = 1993.51; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 243



*** Looping through 5.2. Iter = 3234 


  iteration 3234; minNextMutationTime = 1993.52; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 190



*** Looping through 5.2. Iter = 3235 


  iteration 3235; minNextMutationTime = 1993.53; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 7081



*** Looping through 5.2. Iter = 3236 


  iteration 3236; minNextMutationTime = 1993.54; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 337



*** Looping through 5.2. Iter = 3237 


  iteration 3237; minNextMutationTime = 1993.54; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 339



*** Looping through 5.2. Iter = 3238 


  iteration 3238; minNextMutationTime = 1993.56; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 669



*** Looping through 5.2. Iter = 3239 


  iteration 3239; minNextMutationTime = 1993.58; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 677



*** Looping through 5.2. Iter = 3240 


  iteration 3240; minNextMutationTime = 1993.58; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 678



*** Looping through 5.2. Iter = 3241 


  iteration 3241; minNextMutationTime = 1993.58; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 7080



*** Looping through 5.2. Iter = 3242 


  iteration 3242; minNextMutationTime = 1993.59; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 7085



*** Looping through 5.2. Iter = 3243 


  iteration 3243; minNextMutationTime = 1993.59; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 245



*** Looping through 5.2. Iter = 3244 


  iteration 3244; minNextMutationTime = 1993.6; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 7085



*** Looping through 5.2. Iter = 3245 


  iteration 3245; minNextMutationTime = 1993.64; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 724



*** Looping through 5.2. Iter = 3246 


  iteration 3246; minNextMutationTime = 1993.65; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 191



*** Looping through 5.2. Iter = 3247 


  iteration 3247; minNextMutationTime = 1993.66; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 7090



*** Looping through 5.2. Iter = 3248 


  iteration 3248; minNextMutationTime = 1993.66; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 340



*** Looping through 5.2. Iter = 3249 


  iteration 3249; minNextMutationTime = 1993.67; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 341



*** Looping through 5.2. Iter = 3250 


  iteration 3250; minNextMutationTime = 1993.67; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 678



*** Looping through 5.2. Iter = 3251 


  iteration 3251; minNextMutationTime = 1993.68; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 243



*** Looping through 5.2. Iter = 3252 


  iteration 3252; minNextMutationTime = 1993.68; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 243



*** Looping through 5.2. Iter = 3253 


  iteration 3253; minNextMutationTime = 1993.69; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 192



*** Looping through 5.2. Iter = 3254 


  iteration 3254; minNextMutationTime = 1993.69; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 244



*** Looping through 5.2. Iter = 3255 


  iteration 3255; minNextMutationTime = 1993.73; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 245



*** Looping through 5.2. Iter = 3256 


  iteration 3256; minNextMutationTime = 1993.74; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 342



*** Looping through 5.2. Iter = 3257 


  iteration 3257; minNextMutationTime = 1993.77; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 715



*** Looping through 5.2. Iter = 3258 


  iteration 3258; minNextMutationTime = 1993.77; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 247



*** Looping through 5.2. Iter = 3259 


  iteration 3259; minNextMutationTime = 1993.78; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 678



*** Looping through 5.2. Iter = 3260 


  iteration 3260; minNextMutationTime = 1993.78; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 679



*** Looping through 5.2. Iter = 3261 


  iteration 3261; minNextMutationTime = 1993.8; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 348



*** Looping through 5.2. Iter = 3262 


  iteration 3262; minNextMutationTime = 1993.82; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 7152



*** Looping through 5.2. Iter = 3263 


  iteration 3263; minNextMutationTime = 1993.88; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 198



*** Looping through 5.2. Iter = 3264 


  iteration 3264; minNextMutationTime = 1993.89; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 351



*** Looping through 5.2. Iter = 3265 


  iteration 3265; minNextMutationTime = 1993.9; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 7168



*** Looping through 5.2. Iter = 3266 


  iteration 3266; minNextMutationTime = 1993.9; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 715



*** Looping through 5.2. Iter = 3267 


  iteration 3267; minNextMutationTime = 1993.91; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 717



*** Looping through 5.2. Iter = 3268 


  iteration 3268; minNextMutationTime = 1993.92; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 718



*** Looping through 5.2. Iter = 3269 


  iteration 3269; minNextMutationTime = 1993.93; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 722



*** Looping through 5.2. Iter = 3270 


  iteration 3270; minNextMutationTime = 1993.94; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 246



*** Looping through 5.2. Iter = 3271 


  iteration 3271; minNextMutationTime = 1993.96; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 251



*** Looping through 5.2. Iter = 3272 


  iteration 3272; minNextMutationTime = 1993.96; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 682



*** Looping through 5.2. Iter = 3273 


  iteration 3273; minNextMutationTime = 1993.97; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 725



*** Looping through 5.2. Iter = 3274 


  iteration 3274; minNextMutationTime = 1993.97; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 682



*** Looping through 5.2. Iter = 3275 


  iteration 3275; minNextMutationTime = 1993.97; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 7182



*** Looping through 5.2. Iter = 3276 


  iteration 3276; minNextMutationTime = 1993.98; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 348



*** Looping through 5.2. Iter = 3277 


  iteration 3277; minNextMutationTime = 2004; timeNextPopSample = 1994; popParams.size() = 9

 We are SAMPLING. We reached finalTime 1994

 ... finished this run:
       Total Pop Size =  16051391
       Drivers Last =  2
       Final Time =  1994 

 Starting sample-only-last tests Thu Apr 12 01:58:34 2018 

   Seed =  2403   bozic bozic9 . Poset =  p1101 

   Seed =  2403   Exp Exp9 . Poset =  p1101 

   Seed =  2403   mc mc9 . Poset =  p1101 

   Seed =  5517   bozic bozic9 . Poset =  p901 

   Seed =  5517   Exp Exp9 . Poset =  p901 

   Seed =  5517   mc mc9 . Poset =  p901 

   Seed =  4055   bozic bozic9 . Poset =  p701 

   Seed =  4055   Exp Exp9 . Poset =  p701 

   Seed =  4055   mc mc9 . Poset =  p701 

 Ending sample-only-last tests Thu Apr 12 01:59:05 2018 

 Starting total-present-drivers tests Thu Apr 12 01:59:05 2018 

 Ending total-present-drivers tests Thu Apr 12 01:59:07 2018 

 Starting all fitness at Thu Apr 12 01:59:09 2018Genotype:  d1 , d2, f3
 Individual s terms are : 0.4
 Fitness:  1.4 
Genotype:  f3 , d1 , d2
 Individual s terms are : -0.3
 Fitness:  0.7 
Genotype:  f3 , d1 , d2
 Individual s terms are : -0.3
 Death rate:  1.3 

 DEBUG2: Value of rnb = nan

 DEBUG2: Value of m = 1

 DEBUG2: Value of pe = 0

 DEBUG2: Value of pm = 0.999999

 this is spP

 popSize = 1
 birth = 1
 death = 0
 W = 1
 R = 1
 mutation = 1e-006
 timeLastUpdate = 325.505
 absfitness = -inf
 numMutablePos =1

 Unrecoverable exception: Algo 2: retval not finite. Aborting. 

 DEBUG2: Value of rnb = nan

 DEBUG2: Value of m = 1

 DEBUG2: Value of pe = 0

 DEBUG2: Value of pm = 1

 this is spP

 popSize = 1
 birth = 1
 death = 0
 W = 1
 R = 1
 mutation = 4e-006
 timeLastUpdate = 247.945
 absfitness = -inf
 numMutablePos =4

 Unrecoverable exception: Algo 2: retval not finite. Aborting. 

 Ending all-fitness at Thu Apr 12 01:59:13 2018
 Starting driverCounts at Thu Apr 12 01:59:13 2018
 doing iteration 1 

 doing iteration 2 

 doing iteration 3 

 doing iteration 4 

 doing iteration 5 

 doing iteration 6 

 doing iteration 7 

 doing iteration 8 

 doing iteration 9 

 doing iteration 10 

 doing iteration 11 

 doing iteration 12 

 doing iteration 13 

 doing iteration 14 

 doing iteration 15 

 doing iteration 16 

 doing iteration 17 

 doing iteration 18 

 doing iteration 19 

 doing iteration 20 

 doing iteration 21 

 doing iteration 22 

 doing iteration 23 

 doing iteration 24 

 doing iteration 25 

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 doing iteration 27 

 doing iteration 28 

 doing iteration 29 

 doing iteration 30 

 doing iteration 31 

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 doing iteration 35 

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 doing iteration 43 

 doing iteration 44 

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 doing iteration 46 

 doing iteration 47 

 doing iteration 48 

 doing iteration 49 

 doing iteration 50 

 doing iteration 51 

 doing iteration 52 

 doing iteration 53 

 doing iteration 54 

 doing iteration 55 

 doing iteration 56 

 doing iteration 57 

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 doing iteration 59 

 doing iteration 60 

 doing iteration 61 

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 doing iteration 64 

 doing iteration 65 

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 doing iteration 97 

 doing iteration 98 

 doing iteration 99 

 doing iteration 100 

 Ending driverCounts at Thu Apr 12 01:59:19 2018 

 Starting epist-order-modules at Thu Apr 12 01:59:19 2018
 Ending epist-order-modules at Thu Apr 12 01:59:19 2018
 Starting exercise-plotting-code at Thu Apr 12 01:59:19 2018
 Ending exercise-plotting-code at Thu Apr 12 01:59:32 2018
 Starting fitness preds at Thu Apr 12 01:59:33 2018 

 Observed vs expected, case III

 T.not is 
[1] TRUE
 [1] 1.561135e-41 4.132349e-31 2.603332e-36 8.297258e-38 1.073400e-39
 [6] 3.563133e-37 0.000000e+00 0.000000e+00 6.416185e-33 1.716017e-38
[11] 7.681300e-33 9.147931e-35 8.287564e-30 1.026969e-45 1.808401e-26
[16] 3.600408e-22 3.086279e-35 2.887068e-13

 T.yest 
[1] TRUE
 [1] 0.37781185 0.53267067 0.75691142 0.13417847 0.60036395 0.54256678
 [7] 0.52021110 0.32512754 0.45365602 0.81120613 0.69862131 0.08665698
[13] 0.11134355 0.22700596 0.90952255 0.17842930 0.48775619 0.68160970
[19] 0.78626105 0.38554963 0.07545823 0.75753264 0.49827607 0.26421868
[25] 0.30190322 0.59274380 0.49388437 0.46714181 0.71267916 0.24067436

 larger values of T.yest 
integer(0)

 lm and plot

Call:
lm(formula = log(Observed) ˜ log(Expected), data = d1)

Residuals:
      Min        1Q    Median        3Q       Max 
-0.015540 -0.003937 -0.002121  0.002735  0.025611 

Coefficients:
                Estimate Std. Error t value Pr(>|t|)    
(Intercept)   -0.0104168  0.0053983   -1.93   0.0638 .  
log(Expected)  1.0011905  0.0004538 2206.24   <2e-16 ***
---
Signif. codes:  0 '***' 0.001 '**' 0.01 '*' 0.05 '.' 0.1 ' ' 1

Residual standard error: 0.008163 on 28 degrees of freedom
Multiple R-squared:      1,	Adjusted R-squared:      1 
F-statistic: 4.867e+06 on 1 and 28 DF,  p-value: < 2.2e-16

Linear hypothesis test

Hypothesis:
(Intercept) = 0
log(Expected) = 1

Model 1: restricted model
Model 2: log(Observed) ˜ log(Expected)

  Res.Df       RSS Df  Sum of Sq      F   Pr(>F)   
1     30 0.0026302                                 
2     28 0.0018655  2 0.00076467 5.7385 0.008155 **
---
Signif. codes:  0 '***' 0.001 '**' 0.01 '*' 0.05 '.' 0.1 ' ' 1

 done tries 2 

 Ending fitness preds long at Thu Apr 12 01:59:59 2018 

 Starting fixation  at Thu Apr 12 01:59:59 2018 

 Ending fixation  at Thu Apr 12 02:00:45 2018 

 Starting init-mutant tests Thu Apr 12 02:00:46 2018 

 done tries 1 

 done tries 1 

 done tries 1 

 Ending init-mutant tests Thu Apr 12 02:00:51 2018 

 Starting at mutPropGrowth  Thu Apr 12 02:00:51 2018 

 Thu Apr 12 02:00:51 2018 

 mcf1: a runif is 0.7536524 

 mcf1a: a runif is 0.3828809 

 mcf1c: a runif is 0.02799331 

 done tries 1 

 Thu Apr 12 02:00:52 2018 

 mcf1_ontime: a runif is 0.4401788 

 mcf1a: a runif is 0.1902312 

 mcf1c: a runif is 0.5316319 

 done tries 1 

 Thu Apr 12 02:00:53 2018 

 oss1: a runif is 0.9485039 

 oss1a: a runif is 0.8043463 

 oss1c: a runif is 0.7314775 

 done tries 1 

 oss1_ontime: a runif is 0.9015903 

 oss1a: a runif is 0.451873 

 oss1c: a runif is 0.8517829 

 done tries 1 

 ossmcf1: a runif is 0.8775406 

 ossmcf1a: a runif is 0.2863555 

 ossmcf1c: a runif is 0.8960591 

 done tries 1 

 ossmcf1: a runif is 0.08609927 

 ossmcf1a: a runif is 0.375246 

 ossmcf1c: a runif is 0.05117122 

 done tries 1 

 DEBUG2: Value of spP.death = 1

 DEBUG2: Value of spP.birth = 0

 DEBUG2: Value of pM = 1

 DEBUG2: Value of spP.W = 1

 DEBUG2: Value of spP.mutation = 0

 Unrecoverable exception: pE.f: pE not finite.
      This is expected to happen when mutationPropGrowth = TRUE 
      and you have have an initMutant with death >> birth,
      as that inevitably leads to net birth rate of 0
      and mutation rate of 0. Aborting. 

 Ended test.mutPropGrowth:  Thu Apr 12 02:01:04 2018 

 Starting test.mutator-oncoSimulSample.R test at Thu Apr 12 02:01:04 2018 

 MCFL: AEu8: a runif is 0.02689563 
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.

 done tries 1 

 mcx2bc: a runif is 0.8752533 

 done tries 1 

 x2ef: a runif is 0.4650872 

 done tries 1 

 x2gh: a runif is 0.8895288 

 done tries 1 

 nm2: a runif is 0.8180386 

 done tries 1 

 mcz2: a runif is 0.2489956 

 done tries 1 

 Finished test.mutator-oncoSimulSample.R test at Thu Apr 12 02:01:13 2018 

 Starting test.mutator.R test at Thu Apr 12 02:01:13 2018
 Individual s terms are :

 x2gh: a runif is 0.3017181 

 done tries 1 

 u6: a runif is 0.9783968 

 done tries 1 

 mcfu6: a runif is 0.3564234 

 done tries 1 

 nm2: a runif is 0.7927593 

 done tries 1 

 nm3: a runif is 0.3545062 

 done tries 1 

 mcfl_z2: a runif is 0.6657073 

 done tries 1 

 mmdSM1: a runif is 0.3974505 
[1] 8.566785e-07
[1] 4.135714e-11

 done tries  1 

 mmpg_mcfl: a runif is 0.4226225 

 done tries 1 

 Finished test.mutator.R test at Thu Apr 12 02:01:38 2018 

 Starting oncoSimulIndiv-miscell tests Thu Apr 12 02:01:38 2018 
......  Done individual  1 . Used  1 attempts. . Running for  0.002001047  secs.
......  Done individual  2 . Used  2 attempts. . Running for  0.003001928  secs.
......  Done individual  1 . Used  1 attempts. . Running for  0  secs.
......  Done individual  2 . Used  2 attempts. . Running for  0  secs.

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Ending oncoSimulIndiv-miscell tests Thu Apr 12 02:01:52 2018 

 Starting oncoSimulSample-failures tests Thu Apr 12 02:01:52 2018 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted wall time. Exiting.
 Hitting wall time is regarded as an error. 
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 0. There can be numerical problems later.

 Entered Algo2 with mutation rate = 0

 Unrecoverable exception: mutation = 0 with numMutable != 0?. Aborting. 

 Ending oncoSimulSample-failures tests Thu Apr 12 02:01:57 2018 

 Starting oncoSimulSample-limits tests Thu Apr 12 02:01:57 2018 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Ending oncoSimulSample-limits tests Thu Apr 12 02:01:57 2018 

 Starting per-gene-mutation rates at Thu Apr 12 02:01:57 2018 

 s01: a runif is 0.7104521 

 s02: a runif is 0.6786192 

 s03: a runif is 0.8945609 

 s04: a runif is 0.306824 

 s05: a runif is 0.2727283 

 s06: a runif is 0.5963482 

 s07: a runif is 0.3653591 

 s15: a runif is 0.6824472 

 sz01: a runif is 0.8520134 

 sz02: a runif is 0.4874452 

 sz03: a runif is 0.09989468 

 sz04: a runif is 0.3772559 

 sz05: a runif is 0.8099966 

 sz06: a runif is 0.08116725 

 s3: a runif is 0.8303028 

 done tries 1 

 s4: a runif is 0.1661043 

 done tries 1 

 s5: a runif is 0.6758796 

 done tries 1 

 s6: a runif is 0.209581 

 done tries 1 

 s7: a runif is 0.02675405 

 done tries 1 

 s8: a runif is 0.04628866 

 done tries 1 

 s9: a runif is 0.1427126 

 done tries 1 

 s10: a runif is 0.7403132 

 s12: a runif is 0.4834294 

 s12b: a runif is 0.1240827 
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.

 done tries 1 

 s14: a runif is 0.7686362 
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.

 s14b: a runif is 0.1700037 
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.

 done tries 1 

 s18: a runif is 0.1580748 

 done tries 1 

 mcs19: a runif is 0.6046154 
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.

 done tries 1 

 s20: a runif is 0.5126638 

 s20b: a runif is 0.2479119 

 s20c: a runif is 0.4742509 

 done tries 1 

 df1: a runif is 0.5549972 

 df1a: a runif is 0.5548642 

 df1b: a runif is 0.7665509 

 done tries 1 

 mcdf2: a runif is 0.6143235 

 mcdf2a: a runif is 0.01645767 

 mcdf2b: a runif is 0.4362381 

 done tries 1 

 mpgs3: a runif is 0.6025879 

 mpgs3a: a runif is 0.4282868 

 mpgs3b: a runif is 0.3969359 

 done tries 1 

 mcoss11: a runif is 0.09068838 

 mcoss1a: a runif is 0.1660016 

 mcoss1b: a runif is 0.9472715 

 done tries 1 

 mcoss2: a runif is 0.1473582 

 mcoss2a: a runif is 0.8388198 

 mcoss2b: a runif is 0.5458802 

 done tries 1 

 mpg s14: a runif is 0.2834108 
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.

 mpg s14b: a runif is 0.3616265 
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.

 done tries 1 

 mpg mcdf2: a runif is 0.8053009 

 mpg mcdf2a: a runif is 0.5524915 

 mpg mcdf2b: a runif is 0.8756436 

 done tries 1 

 mcsz033: a runif is 0.01856532 

 mcsz033a: a runif is 0.4329127 

 mcsz033b: a runif is 0.6702441 
[1] 1.501201
[1] 1.794964
[1] 9
[1] 11

 T1 is TRUE
 T2 is TRUE
 done tries 1 

 osSFPSMcFL: a runif is 0.6167197 

 osSFPSMcFLa: a runif is 0.2079233 

 osSFPSMcFLb: a runif is 0.9083628 

 done tries 1 

 Done per-gene-mutation rates at Thu Apr 12 02:04:35 2018 

 Starting poset-transformations tests Thu Apr 12 02:04:38 2018 

 Ending poset-transformations tests Thu Apr 12 02:04:42 2018 

 Starting sample-prob Thu Apr 12 02:04:42 2018 
[1] 5.458458e-30

 done tries 1 
[1] 1.31318e-15

 done tries 1 
[1] 1.000194e-13

 done tries 1 
[1] 4.840302e-17

 done tries 1 
[1] 1.218981e-25

 done tries 1 
[1] 2.08287e-06

 done tries 1 
[1] 4.269331e-18

 done tries 1 
[1] 1.388332e-11

 done tries 1 
[1] 5.137809e-30

 done tries 1 
[1] 1.077952e-09

 done tries 1 
[1] 1.752582e-07

 done tries 1 
[1] 4.174725e-18

 done tries 1 

 Ending sample-prob tests Thu Apr 12 02:05:28 2018 

 Starting samplePop tests Thu Apr 12 02:05:28 2018 

 Ending samplePop tests Thu Apr 12 02:06:15 2018 

 Starting simuls-runs-examples tests Thu Apr 12 02:06:15 2018 

 Doing i =  1  name =  svB 

 Doing i =  2  name =  cbn2 

 Doing i =  3  name =  sv2 

 Doing i =  4  name =  fp3 

 Doing i =  5  name =  fp4m 

 Doing i =  1  name =  svB 

 Doing i =  2  name =  cbn2 

 Doing i =  3  name =  sv2 

 Doing i =  4  name =  fp3 

 Doing i =  5  name =  fp4m 

 Doing i =  1  name =  svB 

 Doing i =  1  name =  svB 

 Doing i =  2  name =  cbn2 

 Doing i =  2  name =  cbn2 

 Doing i =  3  name =  sv2 

 Doing i =  3  name =  sv2 

 Doing i =  4  name =  fp3 

 Doing i =  4  name =  fp3 

 Doing i =  5  name =  fp4m 

 Doing i =  5  name =  fp4m 

 Doing i =  1  name =  svB 

 Doing i =  2  name =  cbn2 

 Doing i =  3  name =  sv2 

 Doing i =  4  name =  fp3 

 Doing i =  5  name =  fp4m 

 Ending simuls-runs-examples tests Thu Apr 12 02:06:36 2018 

 Starting warning-mutPropGrowth tests Thu Apr 12 02:06:36 2018 

 a runif is 0.8164835 

 Ending warning-mutPropGrowth tests Thu Apr 12 02:06:43 2018 

 Starting wide2long tests Thu Apr 12 02:06:43 2018 

 Ending wide2long tests Thu Apr 12 02:06:43 2018 
== testthat results  ===========================================================
OK: 2979 SKIPPED: 8 FAILED: 0
> 
> proc.time()
   user  system elapsed 
 499.79    1.09  501.75 

OncoSimulR.Rcheck/tests_x64/testthat.Rout


R version 3.4.4 (2018-03-15) -- "Someone to Lean On"
Copyright (C) 2018 The R Foundation for Statistical Computing
Platform: x86_64-w64-mingw32/x64 (64-bit)

R is free software and comes with ABSOLUTELY NO WARRANTY.
You are welcome to redistribute it under certain conditions.
Type 'license()' or 'licence()' for distribution details.

R is a collaborative project with many contributors.
Type 'contributors()' for more information and
'citation()' on how to cite R or R packages in publications.

Type 'demo()' for some demos, 'help()' for on-line help, or
'help.start()' for an HTML browser interface to help.
Type 'q()' to quit R.

> library(testthat)
> # library(OncoSimulR)
> 
> test_check("OncoSimulR")
Loading required package: OncoSimulR

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 ... output from mue11

Individual OncoSimul trajectory with call:
 oncoSimulIndiv(fp = fe31, model = "McFL", mu = 1e-06, detectionSize = 5e+06, 
    initSize = 1e+05, finalTime = 5, onlyCancer = FALSE)

  NumClones TotalPopSize LargestClone MaxNumDrivers MaxDriversLast
1         7        99552        99538             1              0
  NumDriversLargestPop TotalPresentDrivers FinalTime NumIter HittedWallTime
1                    0                   1         5     206          FALSE
  HittedMaxTries     errorMF minDMratio minBMratio OccurringDrivers
1          FALSE 0.001230723    99677.1      1e+05               g2

Final population composition:
  Genotype     N
1          99538
2       g2     0
3       g3     5
4       g6     0
5       g8     1
6       g9     0
7      g10     8

 Hitted wall time. Exiting.
 Hitting wall time is regarded as an error. 

 Using  17400  as seed for C++ generator



*** Looping through 5.2. Iter = 1 


  iteration 1; minNextMutationTime = 11; timeNextPopSample = 1; popParams.size() = 1

 We are SAMPLING at time 1



*** Looping through 5.2. Iter = 2 


  iteration 2; minNextMutationTime = 12; timeNextPopSample = 2; popParams.size() = 1

 We are SAMPLING at time 2



*** Looping through 5.2. Iter = 3 


  iteration 3; minNextMutationTime = 13; timeNextPopSample = 3; popParams.size() = 1

 We are SAMPLING at time 3



*** Looping through 5.2. Iter = 4 


  iteration 4; minNextMutationTime = 14; timeNextPopSample = 4; popParams.size() = 1

 We are SAMPLING at time 4



*** Looping through 5.2. Iter = 5 


  iteration 5; minNextMutationTime = 15; timeNextPopSample = 5; popParams.size() = 1

 We are SAMPLING at time 5



*** Looping through 5.2. Iter = 6 


  iteration 6; minNextMutationTime = 16; timeNextPopSample = 6; popParams.size() = 1

 We are SAMPLING at time 6



*** Looping through 5.2. Iter = 7 


  iteration 7; minNextMutationTime = 17; timeNextPopSample = 7; popParams.size() = 1

 We are SAMPLING at time 7



*** Looping through 5.2. Iter = 8 


  iteration 8; minNextMutationTime = 18; timeNextPopSample = 8; popParams.size() = 1

 We are SAMPLING at time 8



*** Looping through 5.2. Iter = 9 


  iteration 9; minNextMutationTime = 19; timeNextPopSample = 9; popParams.size() = 1

 We are SAMPLING at time 9



*** Looping through 5.2. Iter = 10 


  iteration 10; minNextMutationTime = 20; timeNextPopSample = 10; popParams.size() = 1

 We are SAMPLING at time 10



*** Looping through 5.2. Iter = 11 


  iteration 11; minNextMutationTime = 21; timeNextPopSample = 11; popParams.size() = 1

 We are SAMPLING at time 11



*** Looping through 5.2. Iter = 12 


  iteration 12; minNextMutationTime = 22; timeNextPopSample = 12; popParams.size() = 1

 We are SAMPLING at time 12



*** Looping through 5.2. Iter = 13 


  iteration 13; minNextMutationTime = 23; timeNextPopSample = 13; popParams.size() = 1

 We are SAMPLING at time 13



*** Looping through 5.2. Iter = 14 


  iteration 14; minNextMutationTime = 24; timeNextPopSample = 14; popParams.size() = 1

 We are SAMPLING at time 14



*** Looping through 5.2. Iter = 15 


  iteration 15; minNextMutationTime = 25; timeNextPopSample = 15; popParams.size() = 1

 We are SAMPLING at time 15



*** Looping through 5.2. Iter = 16 


  iteration 16; minNextMutationTime = 26; timeNextPopSample = 16; popParams.size() = 1

 We are SAMPLING at time 16



*** Looping through 5.2. Iter = 17 


  iteration 17; minNextMutationTime = 27; timeNextPopSample = 17; popParams.size() = 1

 We are SAMPLING at time 17



*** Looping through 5.2. Iter = 18 


  iteration 18; minNextMutationTime = 28; timeNextPopSample = 18; popParams.size() = 1

 We are SAMPLING at time 18



*** Looping through 5.2. Iter = 19 


  iteration 19; minNextMutationTime = 29; timeNextPopSample = 19; popParams.size() = 1

 We are SAMPLING at time 19



*** Looping through 5.2. Iter = 20 


  iteration 20; minNextMutationTime = 30; timeNextPopSample = 20; popParams.size() = 1

 We are SAMPLING at time 20



*** Looping through 5.2. Iter = 21 


  iteration 21; minNextMutationTime = 31; timeNextPopSample = 21; popParams.size() = 1

 We are SAMPLING at time 21



*** Looping through 5.2. Iter = 22 


  iteration 22; minNextMutationTime = 32; timeNextPopSample = 22; popParams.size() = 1

 We are SAMPLING at time 22



*** Looping through 5.2. Iter = 23 


  iteration 23; minNextMutationTime = 33; timeNextPopSample = 23; popParams.size() = 1

 We are SAMPLING at time 23



*** Looping through 5.2. Iter = 24 


  iteration 24; minNextMutationTime = 34; timeNextPopSample = 24; popParams.size() = 1

 We are SAMPLING at time 24



*** Looping through 5.2. Iter = 25 


  iteration 25; minNextMutationTime = 35; timeNextPopSample = 25; popParams.size() = 1

 We are SAMPLING at time 25



*** Looping through 5.2. Iter = 26 


  iteration 26; minNextMutationTime = 36; timeNextPopSample = 26; popParams.size() = 1

 We are SAMPLING at time 26



*** Looping through 5.2. Iter = 27 


  iteration 27; minNextMutationTime = 37; timeNextPopSample = 27; popParams.size() = 1

 We are SAMPLING at time 27



*** Looping through 5.2. Iter = 28 


  iteration 28; minNextMutationTime = 27.4816; timeNextPopSample = 28; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 29 


  iteration 29; minNextMutationTime = 38; timeNextPopSample = 28; popParams.size() = 2

 We are SAMPLING at time 28



*** Looping through 5.2. Iter = 30 


  iteration 30; minNextMutationTime = 39; timeNextPopSample = 29; popParams.size() = 2

 We are SAMPLING at time 29



*** Looping through 5.2. Iter = 31 


  iteration 31; minNextMutationTime = 40; timeNextPopSample = 30; popParams.size() = 1

 We are SAMPLING at time 30



*** Looping through 5.2. Iter = 32 


  iteration 32; minNextMutationTime = 30.8538; timeNextPopSample = 31; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 33 


  iteration 33; minNextMutationTime = 41; timeNextPopSample = 31; popParams.size() = 2

 We are SAMPLING at time 31



*** Looping through 5.2. Iter = 34 


  iteration 34; minNextMutationTime = 42; timeNextPopSample = 32; popParams.size() = 2

 We are SAMPLING at time 32



*** Looping through 5.2. Iter = 35 


  iteration 35; minNextMutationTime = 43; timeNextPopSample = 33; popParams.size() = 1

 We are SAMPLING at time 33



*** Looping through 5.2. Iter = 36 


  iteration 36; minNextMutationTime = 44; timeNextPopSample = 34; popParams.size() = 1

 We are SAMPLING at time 34



*** Looping through 5.2. Iter = 37 


  iteration 37; minNextMutationTime = 45; timeNextPopSample = 35; popParams.size() = 1

 We are SAMPLING at time 35



*** Looping through 5.2. Iter = 38 


  iteration 38; minNextMutationTime = 46; timeNextPopSample = 36; popParams.size() = 1

 We are SAMPLING at time 36



*** Looping through 5.2. Iter = 39 


  iteration 39; minNextMutationTime = 47; timeNextPopSample = 37; popParams.size() = 1

 We are SAMPLING at time 37



*** Looping through 5.2. Iter = 40 


  iteration 40; minNextMutationTime = 37.6018; timeNextPopSample = 38; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 41 


  iteration 41; minNextMutationTime = 48; timeNextPopSample = 38; popParams.size() = 2

 We are SAMPLING at time 38



*** Looping through 5.2. Iter = 42 


  iteration 42; minNextMutationTime = 49; timeNextPopSample = 39; popParams.size() = 2

 We are SAMPLING at time 39



*** Looping through 5.2. Iter = 43 


  iteration 43; minNextMutationTime = 50; timeNextPopSample = 40; popParams.size() = 2

 We are SAMPLING at time 40



*** Looping through 5.2. Iter = 44 


  iteration 44; minNextMutationTime = 51; timeNextPopSample = 41; popParams.size() = 2

 We are SAMPLING at time 41



*** Looping through 5.2. Iter = 45 


  iteration 45; minNextMutationTime = 52; timeNextPopSample = 42; popParams.size() = 1

 We are SAMPLING at time 42



*** Looping through 5.2. Iter = 46 


  iteration 46; minNextMutationTime = 53; timeNextPopSample = 43; popParams.size() = 1

 We are SAMPLING at time 43



*** Looping through 5.2. Iter = 47 


  iteration 47; minNextMutationTime = 43.5756; timeNextPopSample = 44; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 48 


  iteration 48; minNextMutationTime = 54; timeNextPopSample = 44; popParams.size() = 2

 We are SAMPLING at time 44



*** Looping through 5.2. Iter = 49 


  iteration 49; minNextMutationTime = 55; timeNextPopSample = 45; popParams.size() = 2

 We are SAMPLING at time 45



*** Looping through 5.2. Iter = 50 


  iteration 50; minNextMutationTime = 56; timeNextPopSample = 46; popParams.size() = 1

 We are SAMPLING at time 46



*** Looping through 5.2. Iter = 51 


  iteration 51; minNextMutationTime = 46.7129; timeNextPopSample = 47; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 52 


  iteration 52; minNextMutationTime = 57; timeNextPopSample = 47; popParams.size() = 2

 We are SAMPLING at time 47



*** Looping through 5.2. Iter = 53 


  iteration 53; minNextMutationTime = 58; timeNextPopSample = 48; popParams.size() = 1

 We are SAMPLING at time 48



*** Looping through 5.2. Iter = 54 


  iteration 54; minNextMutationTime = 59; timeNextPopSample = 49; popParams.size() = 1

 We are SAMPLING at time 49



*** Looping through 5.2. Iter = 55 


  iteration 55; minNextMutationTime = 60; timeNextPopSample = 50; popParams.size() = 1

 We are SAMPLING at time 50



*** Looping through 5.2. Iter = 56 


  iteration 56; minNextMutationTime = 61; timeNextPopSample = 51; popParams.size() = 1

 We are SAMPLING at time 51



*** Looping through 5.2. Iter = 57 


  iteration 57; minNextMutationTime = 62; timeNextPopSample = 52; popParams.size() = 1

 We are SAMPLING at time 52



*** Looping through 5.2. Iter = 58 


  iteration 58; minNextMutationTime = 63; timeNextPopSample = 53; popParams.size() = 1

 We are SAMPLING at time 53



*** Looping through 5.2. Iter = 59 


  iteration 59; minNextMutationTime = 64; timeNextPopSample = 54; popParams.size() = 1

 We are SAMPLING at time 54



*** Looping through 5.2. Iter = 60 


  iteration 60; minNextMutationTime = 65; timeNextPopSample = 55; popParams.size() = 1

 We are SAMPLING at time 55



*** Looping through 5.2. Iter = 61 


  iteration 61; minNextMutationTime = 66; timeNextPopSample = 56; popParams.size() = 1

 We are SAMPLING at time 56



*** Looping through 5.2. Iter = 62 


  iteration 62; minNextMutationTime = 67; timeNextPopSample = 57; popParams.size() = 1

 We are SAMPLING at time 57



*** Looping through 5.2. Iter = 63 


  iteration 63; minNextMutationTime = 68; timeNextPopSample = 58; popParams.size() = 1

 We are SAMPLING at time 58



*** Looping through 5.2. Iter = 64 


  iteration 64; minNextMutationTime = 69; timeNextPopSample = 59; popParams.size() = 1

 We are SAMPLING at time 59



*** Looping through 5.2. Iter = 65 


  iteration 65; minNextMutationTime = 70; timeNextPopSample = 60; popParams.size() = 1

 We are SAMPLING at time 60



*** Looping through 5.2. Iter = 66 


  iteration 66; minNextMutationTime = 60.5645; timeNextPopSample = 61; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 67 


  iteration 67; minNextMutationTime = 71; timeNextPopSample = 61; popParams.size() = 2

 We are SAMPLING at time 61



*** Looping through 5.2. Iter = 68 


  iteration 68; minNextMutationTime = 72; timeNextPopSample = 62; popParams.size() = 2

 We are SAMPLING at time 62



*** Looping through 5.2. Iter = 69 


  iteration 69; minNextMutationTime = 73; timeNextPopSample = 63; popParams.size() = 2

 We are SAMPLING at time 63



*** Looping through 5.2. Iter = 70 


  iteration 70; minNextMutationTime = 74; timeNextPopSample = 64; popParams.size() = 2

 We are SAMPLING at time 64



*** Looping through 5.2. Iter = 71 


  iteration 71; minNextMutationTime = 75; timeNextPopSample = 65; popParams.size() = 2

 We are SAMPLING at time 65



*** Looping through 5.2. Iter = 72 


  iteration 72; minNextMutationTime = 76; timeNextPopSample = 66; popParams.size() = 1

 We are SAMPLING at time 66



*** Looping through 5.2. Iter = 73 


  iteration 73; minNextMutationTime = 77; timeNextPopSample = 67; popParams.size() = 1

 We are SAMPLING at time 67



*** Looping through 5.2. Iter = 74 


  iteration 74; minNextMutationTime = 78; timeNextPopSample = 68; popParams.size() = 1

 We are SAMPLING at time 68



*** Looping through 5.2. Iter = 75 


  iteration 75; minNextMutationTime = 79; timeNextPopSample = 69; popParams.size() = 1

 We are SAMPLING at time 69



*** Looping through 5.2. Iter = 76 


  iteration 76; minNextMutationTime = 80; timeNextPopSample = 70; popParams.size() = 1

 We are SAMPLING at time 70



*** Looping through 5.2. Iter = 77 


  iteration 77; minNextMutationTime = 81; timeNextPopSample = 71; popParams.size() = 1

 We are SAMPLING at time 71



*** Looping through 5.2. Iter = 78 


  iteration 78; minNextMutationTime = 82; timeNextPopSample = 72; popParams.size() = 1

 We are SAMPLING at time 72



*** Looping through 5.2. Iter = 79 


  iteration 79; minNextMutationTime = 83; timeNextPopSample = 73; popParams.size() = 1

 We are SAMPLING at time 73



*** Looping through 5.2. Iter = 80 


  iteration 80; minNextMutationTime = 84; timeNextPopSample = 74; popParams.size() = 1

 We are SAMPLING at time 74



*** Looping through 5.2. Iter = 81 


  iteration 81; minNextMutationTime = 85; timeNextPopSample = 75; popParams.size() = 1

 We are SAMPLING at time 75



*** Looping through 5.2. Iter = 82 


  iteration 82; minNextMutationTime = 86; timeNextPopSample = 76; popParams.size() = 1

 We are SAMPLING at time 76



*** Looping through 5.2. Iter = 83 


  iteration 83; minNextMutationTime = 87; timeNextPopSample = 77; popParams.size() = 1

 We are SAMPLING at time 77



*** Looping through 5.2. Iter = 84 


  iteration 84; minNextMutationTime = 88; timeNextPopSample = 78; popParams.size() = 1

 We are SAMPLING at time 78



*** Looping through 5.2. Iter = 85 


  iteration 85; minNextMutationTime = 89; timeNextPopSample = 79; popParams.size() = 1

 We are SAMPLING at time 79



*** Looping through 5.2. Iter = 86 


  iteration 86; minNextMutationTime = 90; timeNextPopSample = 80; popParams.size() = 1

 We are SAMPLING at time 80



*** Looping through 5.2. Iter = 87 


  iteration 87; minNextMutationTime = 91; timeNextPopSample = 81; popParams.size() = 1

 We are SAMPLING at time 81



*** Looping through 5.2. Iter = 88 


  iteration 88; minNextMutationTime = 92; timeNextPopSample = 82; popParams.size() = 1

 We are SAMPLING at time 82



*** Looping through 5.2. Iter = 89 


  iteration 89; minNextMutationTime = 93; timeNextPopSample = 83; popParams.size() = 1

 We are SAMPLING at time 83



*** Looping through 5.2. Iter = 90 


  iteration 90; minNextMutationTime = 94; timeNextPopSample = 84; popParams.size() = 1

 We are SAMPLING at time 84



*** Looping through 5.2. Iter = 91 


  iteration 91; minNextMutationTime = 95; timeNextPopSample = 85; popParams.size() = 1

 We are SAMPLING at time 85



*** Looping through 5.2. Iter = 92 


  iteration 92; minNextMutationTime = 96; timeNextPopSample = 86; popParams.size() = 1

 We are SAMPLING at time 86



*** Looping through 5.2. Iter = 93 


  iteration 93; minNextMutationTime = 86.7149; timeNextPopSample = 87; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 94 


  iteration 94; minNextMutationTime = 97; timeNextPopSample = 87; popParams.size() = 2

 We are SAMPLING at time 87



*** Looping through 5.2. Iter = 95 


  iteration 95; minNextMutationTime = 98; timeNextPopSample = 88; popParams.size() = 2

 We are SAMPLING at time 88



*** Looping through 5.2. Iter = 96 


  iteration 96; minNextMutationTime = 99; timeNextPopSample = 89; popParams.size() = 1

 We are SAMPLING at time 89



*** Looping through 5.2. Iter = 97 


  iteration 97; minNextMutationTime = 89.7251; timeNextPopSample = 90; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 98 


  iteration 98; minNextMutationTime = 100; timeNextPopSample = 90; popParams.size() = 2

 We are SAMPLING at time 90



*** Looping through 5.2. Iter = 99 


  iteration 99; minNextMutationTime = 90.3587; timeNextPopSample = 91; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 100 


  iteration 100; minNextMutationTime = 101; timeNextPopSample = 91; popParams.size() = 3

 We are SAMPLING at time 91



*** Looping through 5.2. Iter = 101 


  iteration 101; minNextMutationTime = 102; timeNextPopSample = 92; popParams.size() = 2

 We are SAMPLING at time 92



*** Looping through 5.2. Iter = 102 


  iteration 102; minNextMutationTime = 103; timeNextPopSample = 93; popParams.size() = 2

 We are SAMPLING at time 93



*** Looping through 5.2. Iter = 103 


  iteration 103; minNextMutationTime = 104; timeNextPopSample = 94; popParams.size() = 2

 We are SAMPLING at time 94



*** Looping through 5.2. Iter = 104 


  iteration 104; minNextMutationTime = 105; timeNextPopSample = 95; popParams.size() = 2

 We are SAMPLING at time 95



*** Looping through 5.2. Iter = 105 


  iteration 105; minNextMutationTime = 106; timeNextPopSample = 96; popParams.size() = 1

 We are SAMPLING at time 96



*** Looping through 5.2. Iter = 106 


  iteration 106; minNextMutationTime = 107; timeNextPopSample = 97; popParams.size() = 1

 We are SAMPLING at time 97



*** Looping through 5.2. Iter = 107 


  iteration 107; minNextMutationTime = 108; timeNextPopSample = 98; popParams.size() = 1

 We are SAMPLING at time 98



*** Looping through 5.2. Iter = 108 


  iteration 108; minNextMutationTime = 109; timeNextPopSample = 99; popParams.size() = 1

 We are SAMPLING at time 99



*** Looping through 5.2. Iter = 109 


  iteration 109; minNextMutationTime = 110; timeNextPopSample = 100; popParams.size() = 1

 We are SAMPLING at time 100



*** Looping through 5.2. Iter = 110 


  iteration 110; minNextMutationTime = 111; timeNextPopSample = 101; popParams.size() = 1

 We are SAMPLING at time 101



*** Looping through 5.2. Iter = 111 


  iteration 111; minNextMutationTime = 112; timeNextPopSample = 102; popParams.size() = 1

 We are SAMPLING at time 102



*** Looping through 5.2. Iter = 112 


  iteration 112; minNextMutationTime = 113; timeNextPopSample = 103; popParams.size() = 1

 We are SAMPLING at time 103



*** Looping through 5.2. Iter = 113 


  iteration 113; minNextMutationTime = 114; timeNextPopSample = 104; popParams.size() = 1

 We are SAMPLING at time 104



*** Looping through 5.2. Iter = 114 


  iteration 114; minNextMutationTime = 115; timeNextPopSample = 105; popParams.size() = 1

 We are SAMPLING at time 105



*** Looping through 5.2. Iter = 115 


  iteration 115; minNextMutationTime = 116; timeNextPopSample = 106; popParams.size() = 1

 We are SAMPLING at time 106



*** Looping through 5.2. Iter = 116 


  iteration 116; minNextMutationTime = 117; timeNextPopSample = 107; popParams.size() = 1

 We are SAMPLING at time 107



*** Looping through 5.2. Iter = 117 


  iteration 117; minNextMutationTime = 118; timeNextPopSample = 108; popParams.size() = 1

 We are SAMPLING at time 108



*** Looping through 5.2. Iter = 118 


  iteration 118; minNextMutationTime = 119; timeNextPopSample = 109; popParams.size() = 1

 We are SAMPLING at time 109



*** Looping through 5.2. Iter = 119 


  iteration 119; minNextMutationTime = 120; timeNextPopSample = 110; popParams.size() = 1

 We are SAMPLING at time 110



*** Looping through 5.2. Iter = 120 


  iteration 120; minNextMutationTime = 121; timeNextPopSample = 111; popParams.size() = 1

 We are SAMPLING at time 111



*** Looping through 5.2. Iter = 121 


  iteration 121; minNextMutationTime = 111.921; timeNextPopSample = 112; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 122 


  iteration 122; minNextMutationTime = 122; timeNextPopSample = 112; popParams.size() = 2

 We are SAMPLING at time 112



*** Looping through 5.2. Iter = 123 


  iteration 123; minNextMutationTime = 123; timeNextPopSample = 113; popParams.size() = 2

 We are SAMPLING at time 113



*** Looping through 5.2. Iter = 124 


  iteration 124; minNextMutationTime = 124; timeNextPopSample = 114; popParams.size() = 1

 We are SAMPLING at time 114



*** Looping through 5.2. Iter = 125 


  iteration 125; minNextMutationTime = 125; timeNextPopSample = 115; popParams.size() = 1

 We are SAMPLING at time 115



*** Looping through 5.2. Iter = 126 


  iteration 126; minNextMutationTime = 126; timeNextPopSample = 116; popParams.size() = 1

 We are SAMPLING at time 116



*** Looping through 5.2. Iter = 127 


  iteration 127; minNextMutationTime = 116.291; timeNextPopSample = 117; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 128 


  iteration 128; minNextMutationTime = 127; timeNextPopSample = 117; popParams.size() = 2

 We are SAMPLING at time 117



*** Looping through 5.2. Iter = 129 


  iteration 129; minNextMutationTime = 128; timeNextPopSample = 118; popParams.size() = 2

 We are SAMPLING at time 118



*** Looping through 5.2. Iter = 130 


  iteration 130; minNextMutationTime = 129; timeNextPopSample = 119; popParams.size() = 1

 We are SAMPLING at time 119



*** Looping through 5.2. Iter = 131 


  iteration 131; minNextMutationTime = 119.614; timeNextPopSample = 120; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 132 


  iteration 132; minNextMutationTime = 130; timeNextPopSample = 120; popParams.size() = 2

 We are SAMPLING at time 120



*** Looping through 5.2. Iter = 133 


  iteration 133; minNextMutationTime = 131; timeNextPopSample = 121; popParams.size() = 2

 We are SAMPLING at time 121



*** Looping through 5.2. Iter = 134 


  iteration 134; minNextMutationTime = 121.049; timeNextPopSample = 122; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 135 


  iteration 135; minNextMutationTime = 132; timeNextPopSample = 122; popParams.size() = 2

 We are SAMPLING at time 122



*** Looping through 5.2. Iter = 136 


  iteration 136; minNextMutationTime = 133; timeNextPopSample = 123; popParams.size() = 1

 We are SAMPLING at time 123



*** Looping through 5.2. Iter = 137 


  iteration 137; minNextMutationTime = 134; timeNextPopSample = 124; popParams.size() = 1

 We are SAMPLING at time 124



*** Looping through 5.2. Iter = 138 


  iteration 138; minNextMutationTime = 135; timeNextPopSample = 125; popParams.size() = 1

 We are SAMPLING at time 125



*** Looping through 5.2. Iter = 139 


  iteration 139; minNextMutationTime = 136; timeNextPopSample = 126; popParams.size() = 1

 We are SAMPLING at time 126



*** Looping through 5.2. Iter = 140 


  iteration 140; minNextMutationTime = 137; timeNextPopSample = 127; popParams.size() = 1

 We are SAMPLING at time 127



*** Looping through 5.2. Iter = 141 


  iteration 141; minNextMutationTime = 138; timeNextPopSample = 128; popParams.size() = 1

 We are SAMPLING at time 128



*** Looping through 5.2. Iter = 142 


  iteration 142; minNextMutationTime = 139; timeNextPopSample = 129; popParams.size() = 1

 We are SAMPLING at time 129



*** Looping through 5.2. Iter = 143 


  iteration 143; minNextMutationTime = 140; timeNextPopSample = 130; popParams.size() = 1

 We are SAMPLING at time 130



*** Looping through 5.2. Iter = 144 


  iteration 144; minNextMutationTime = 141; timeNextPopSample = 131; popParams.size() = 1

 We are SAMPLING at time 131



*** Looping through 5.2. Iter = 145 


  iteration 145; minNextMutationTime = 142; timeNextPopSample = 132; popParams.size() = 1

 We are SAMPLING at time 132



*** Looping through 5.2. Iter = 146 


  iteration 146; minNextMutationTime = 143; timeNextPopSample = 133; popParams.size() = 1

 We are SAMPLING at time 133



*** Looping through 5.2. Iter = 147 


  iteration 147; minNextMutationTime = 133.209; timeNextPopSample = 134; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 148 


  iteration 148; minNextMutationTime = 144; timeNextPopSample = 134; popParams.size() = 2

 We are SAMPLING at time 134



*** Looping through 5.2. Iter = 149 


  iteration 149; minNextMutationTime = 145; timeNextPopSample = 135; popParams.size() = 2

 We are SAMPLING at time 135



*** Looping through 5.2. Iter = 150 


  iteration 150; minNextMutationTime = 146; timeNextPopSample = 136; popParams.size() = 1

 We are SAMPLING at time 136



*** Looping through 5.2. Iter = 151 


  iteration 151; minNextMutationTime = 147; timeNextPopSample = 137; popParams.size() = 1

 We are SAMPLING at time 137



*** Looping through 5.2. Iter = 152 


  iteration 152; minNextMutationTime = 148; timeNextPopSample = 138; popParams.size() = 1

 We are SAMPLING at time 138



*** Looping through 5.2. Iter = 153 


  iteration 153; minNextMutationTime = 149; timeNextPopSample = 139; popParams.size() = 1

 We are SAMPLING at time 139



*** Looping through 5.2. Iter = 154 


  iteration 154; minNextMutationTime = 150; timeNextPopSample = 140; popParams.size() = 1

 We are SAMPLING at time 140



*** Looping through 5.2. Iter = 155 


  iteration 155; minNextMutationTime = 151; timeNextPopSample = 141; popParams.size() = 1

 We are SAMPLING at time 141



*** Looping through 5.2. Iter = 156 


  iteration 156; minNextMutationTime = 141.895; timeNextPopSample = 142; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 157 


  iteration 157; minNextMutationTime = 152; timeNextPopSample = 142; popParams.size() = 2

 We are SAMPLING at time 142



*** Looping through 5.2. Iter = 158 


  iteration 158; minNextMutationTime = 153; timeNextPopSample = 143; popParams.size() = 2

 We are SAMPLING at time 143



*** Looping through 5.2. Iter = 159 


  iteration 159; minNextMutationTime = 154; timeNextPopSample = 144; popParams.size() = 2

 We are SAMPLING at time 144



*** Looping through 5.2. Iter = 160 


  iteration 160; minNextMutationTime = 155; timeNextPopSample = 145; popParams.size() = 2

 We are SAMPLING at time 145



*** Looping through 5.2. Iter = 161 


  iteration 161; minNextMutationTime = 156; timeNextPopSample = 146; popParams.size() = 2

 We are SAMPLING at time 146



*** Looping through 5.2. Iter = 162 


  iteration 162; minNextMutationTime = 157; timeNextPopSample = 147; popParams.size() = 2

 We are SAMPLING at time 147



*** Looping through 5.2. Iter = 163 


  iteration 163; minNextMutationTime = 158; timeNextPopSample = 148; popParams.size() = 2

 We are SAMPLING at time 148



*** Looping through 5.2. Iter = 164 


  iteration 164; minNextMutationTime = 148.65; timeNextPopSample = 149; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 165 


  iteration 165; minNextMutationTime = 159; timeNextPopSample = 149; popParams.size() = 3

 We are SAMPLING at time 149



*** Looping through 5.2. Iter = 166 


  iteration 166; minNextMutationTime = 160; timeNextPopSample = 150; popParams.size() = 3

 We are SAMPLING at time 150



*** Looping through 5.2. Iter = 167 


  iteration 167; minNextMutationTime = 161; timeNextPopSample = 151; popParams.size() = 3

 We are SAMPLING at time 151



*** Looping through 5.2. Iter = 168 


  iteration 168; minNextMutationTime = 162; timeNextPopSample = 152; popParams.size() = 2

 We are SAMPLING at time 152



*** Looping through 5.2. Iter = 169 


  iteration 169; minNextMutationTime = 163; timeNextPopSample = 153; popParams.size() = 2

 We are SAMPLING at time 153



*** Looping through 5.2. Iter = 170 


  iteration 170; minNextMutationTime = 164; timeNextPopSample = 154; popParams.size() = 1

 We are SAMPLING at time 154



*** Looping through 5.2. Iter = 171 


  iteration 171; minNextMutationTime = 165; timeNextPopSample = 155; popParams.size() = 1

 We are SAMPLING at time 155



*** Looping through 5.2. Iter = 172 


  iteration 172; minNextMutationTime = 166; timeNextPopSample = 156; popParams.size() = 1

 We are SAMPLING at time 156



*** Looping through 5.2. Iter = 173 


  iteration 173; minNextMutationTime = 167; timeNextPopSample = 157; popParams.size() = 1

 We are SAMPLING at time 157



*** Looping through 5.2. Iter = 174 


  iteration 174; minNextMutationTime = 157.14; timeNextPopSample = 158; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 175 


  iteration 175; minNextMutationTime = 157.689; timeNextPopSample = 158; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 176 


  iteration 176; minNextMutationTime = 157.878; timeNextPopSample = 158; popParams.size() = 3

     Creating new species   3         from species 0


*** Looping through 5.2. Iter = 177 


  iteration 177; minNextMutationTime = 168; timeNextPopSample = 158; popParams.size() = 4

 We are SAMPLING at time 158



*** Looping through 5.2. Iter = 178 


  iteration 178; minNextMutationTime = 169; timeNextPopSample = 159; popParams.size() = 4

 We are SAMPLING at time 159



*** Looping through 5.2. Iter = 179 


  iteration 179; minNextMutationTime = 159.023; timeNextPopSample = 160; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 180 


  iteration 180; minNextMutationTime = 170; timeNextPopSample = 160; popParams.size() = 3

 We are SAMPLING at time 160



*** Looping through 5.2. Iter = 181 


  iteration 181; minNextMutationTime = 160.19; timeNextPopSample = 161; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 182 


  iteration 182; minNextMutationTime = 171; timeNextPopSample = 161; popParams.size() = 2

 We are SAMPLING at time 161



*** Looping through 5.2. Iter = 183 


  iteration 183; minNextMutationTime = 172; timeNextPopSample = 162; popParams.size() = 2

 We are SAMPLING at time 162



*** Looping through 5.2. Iter = 184 


  iteration 184; minNextMutationTime = 173; timeNextPopSample = 163; popParams.size() = 2

 We are SAMPLING at time 163



*** Looping through 5.2. Iter = 185 


  iteration 185; minNextMutationTime = 174; timeNextPopSample = 164; popParams.size() = 2

 We are SAMPLING at time 164



*** Looping through 5.2. Iter = 186 


  iteration 186; minNextMutationTime = 175; timeNextPopSample = 165; popParams.size() = 2

 We are SAMPLING at time 165



*** Looping through 5.2. Iter = 187 


  iteration 187; minNextMutationTime = 176; timeNextPopSample = 166; popParams.size() = 2

 We are SAMPLING at time 166



*** Looping through 5.2. Iter = 188 


  iteration 188; minNextMutationTime = 177; timeNextPopSample = 167; popParams.size() = 2

 We are SAMPLING at time 167



*** Looping through 5.2. Iter = 189 


  iteration 189; minNextMutationTime = 178; timeNextPopSample = 168; popParams.size() = 2

 We are SAMPLING at time 168



*** Looping through 5.2. Iter = 190 


  iteration 190; minNextMutationTime = 179; timeNextPopSample = 169; popParams.size() = 2

 We are SAMPLING at time 169



*** Looping through 5.2. Iter = 191 


  iteration 191; minNextMutationTime = 180; timeNextPopSample = 170; popParams.size() = 2

 We are SAMPLING at time 170



*** Looping through 5.2. Iter = 192 


  iteration 192; minNextMutationTime = 181; timeNextPopSample = 171; popParams.size() = 2

 We are SAMPLING at time 171



*** Looping through 5.2. Iter = 193 


  iteration 193; minNextMutationTime = 182; timeNextPopSample = 172; popParams.size() = 2

 We are SAMPLING at time 172



*** Looping through 5.2. Iter = 194 


  iteration 194; minNextMutationTime = 183; timeNextPopSample = 173; popParams.size() = 2

 We are SAMPLING at time 173



*** Looping through 5.2. Iter = 195 


  iteration 195; minNextMutationTime = 184; timeNextPopSample = 174; popParams.size() = 2

 We are SAMPLING at time 174



*** Looping through 5.2. Iter = 196 


  iteration 196; minNextMutationTime = 185; timeNextPopSample = 175; popParams.size() = 2

 We are SAMPLING at time 175



*** Looping through 5.2. Iter = 197 


  iteration 197; minNextMutationTime = 186; timeNextPopSample = 176; popParams.size() = 2

 We are SAMPLING at time 176



*** Looping through 5.2. Iter = 198 


  iteration 198; minNextMutationTime = 187; timeNextPopSample = 177; popParams.size() = 2

 We are SAMPLING at time 177



*** Looping through 5.2. Iter = 199 


  iteration 199; minNextMutationTime = 188; timeNextPopSample = 178; popParams.size() = 2

 We are SAMPLING at time 178



*** Looping through 5.2. Iter = 200 


  iteration 200; minNextMutationTime = 189; timeNextPopSample = 179; popParams.size() = 2

 We are SAMPLING at time 179



*** Looping through 5.2. Iter = 201 


  iteration 201; minNextMutationTime = 190; timeNextPopSample = 180; popParams.size() = 2

 We are SAMPLING at time 180



*** Looping through 5.2. Iter = 202 


  iteration 202; minNextMutationTime = 191; timeNextPopSample = 181; popParams.size() = 2

 We are SAMPLING at time 181



*** Looping through 5.2. Iter = 203 


  iteration 203; minNextMutationTime = 192; timeNextPopSample = 182; popParams.size() = 2

 We are SAMPLING at time 182



*** Looping through 5.2. Iter = 204 


  iteration 204; minNextMutationTime = 193; timeNextPopSample = 183; popParams.size() = 2

 We are SAMPLING at time 183



*** Looping through 5.2. Iter = 205 


  iteration 205; minNextMutationTime = 183.736; timeNextPopSample = 184; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 206 


  iteration 206; minNextMutationTime = 194; timeNextPopSample = 184; popParams.size() = 3

 We are SAMPLING at time 184



*** Looping through 5.2. Iter = 207 


  iteration 207; minNextMutationTime = 184.219; timeNextPopSample = 185; popParams.size() = 3

     Creating new species   3         from species 0


*** Looping through 5.2. Iter = 208 


  iteration 208; minNextMutationTime = 195; timeNextPopSample = 185; popParams.size() = 4

 We are SAMPLING at time 185



*** Looping through 5.2. Iter = 209 


  iteration 209; minNextMutationTime = 196; timeNextPopSample = 186; popParams.size() = 3

 We are SAMPLING at time 186



*** Looping through 5.2. Iter = 210 


  iteration 210; minNextMutationTime = 197; timeNextPopSample = 187; popParams.size() = 3

 We are SAMPLING at time 187



*** Looping through 5.2. Iter = 211 


  iteration 211; minNextMutationTime = 198; timeNextPopSample = 188; popParams.size() = 2

 We are SAMPLING at time 188



*** Looping through 5.2. Iter = 212 


  iteration 212; minNextMutationTime = 199; timeNextPopSample = 189; popParams.size() = 2

 We are SAMPLING at time 189



*** Looping through 5.2. Iter = 213 


  iteration 213; minNextMutationTime = 200; timeNextPopSample = 190; popParams.size() = 2

 We are SAMPLING at time 190



*** Looping through 5.2. Iter = 214 


  iteration 214; minNextMutationTime = 201; timeNextPopSample = 191; popParams.size() = 2

 We are SAMPLING at time 191



*** Looping through 5.2. Iter = 215 


  iteration 215; minNextMutationTime = 202; timeNextPopSample = 192; popParams.size() = 2

 We are SAMPLING at time 192



*** Looping through 5.2. Iter = 216 


  iteration 216; minNextMutationTime = 203; timeNextPopSample = 193; popParams.size() = 2

 We are SAMPLING at time 193



*** Looping through 5.2. Iter = 217 


  iteration 217; minNextMutationTime = 204; timeNextPopSample = 194; popParams.size() = 2

 We are SAMPLING at time 194



*** Looping through 5.2. Iter = 218 


  iteration 218; minNextMutationTime = 205; timeNextPopSample = 195; popParams.size() = 2

 We are SAMPLING at time 195



*** Looping through 5.2. Iter = 219 


  iteration 219; minNextMutationTime = 206; timeNextPopSample = 196; popParams.size() = 2

 We are SAMPLING at time 196



*** Looping through 5.2. Iter = 220 


  iteration 220; minNextMutationTime = 207; timeNextPopSample = 197; popParams.size() = 1

 We are SAMPLING at time 197



*** Looping through 5.2. Iter = 221 


  iteration 221; minNextMutationTime = 208; timeNextPopSample = 198; popParams.size() = 1

 We are SAMPLING at time 198



*** Looping through 5.2. Iter = 222 


  iteration 222; minNextMutationTime = 209; timeNextPopSample = 199; popParams.size() = 1

 We are SAMPLING at time 199



*** Looping through 5.2. Iter = 223 


  iteration 223; minNextMutationTime = 210; timeNextPopSample = 200; popParams.size() = 1

 We are SAMPLING at time 200



*** Looping through 5.2. Iter = 224 


  iteration 224; minNextMutationTime = 211; timeNextPopSample = 201; popParams.size() = 1

 We are SAMPLING at time 201



*** Looping through 5.2. Iter = 225 


  iteration 225; minNextMutationTime = 212; timeNextPopSample = 202; popParams.size() = 1

 We are SAMPLING at time 202



*** Looping through 5.2. Iter = 226 


  iteration 226; minNextMutationTime = 213; timeNextPopSample = 203; popParams.size() = 1

 We are SAMPLING at time 203



*** Looping through 5.2. Iter = 227 


  iteration 227; minNextMutationTime = 214; timeNextPopSample = 204; popParams.size() = 1

 We are SAMPLING at time 204



*** Looping through 5.2. Iter = 228 


  iteration 228; minNextMutationTime = 204.52; timeNextPopSample = 205; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 229 


  iteration 229; minNextMutationTime = 215; timeNextPopSample = 205; popParams.size() = 2

 We are SAMPLING at time 205



*** Looping through 5.2. Iter = 230 


  iteration 230; minNextMutationTime = 216; timeNextPopSample = 206; popParams.size() = 2

 We are SAMPLING at time 206



*** Looping through 5.2. Iter = 231 


  iteration 231; minNextMutationTime = 217; timeNextPopSample = 207; popParams.size() = 2

 We are SAMPLING at time 207



*** Looping through 5.2. Iter = 232 


  iteration 232; minNextMutationTime = 218; timeNextPopSample = 208; popParams.size() = 1

 We are SAMPLING at time 208



*** Looping through 5.2. Iter = 233 


  iteration 233; minNextMutationTime = 219; timeNextPopSample = 209; popParams.size() = 1

 We are SAMPLING at time 209



*** Looping through 5.2. Iter = 234 


  iteration 234; minNextMutationTime = 220; timeNextPopSample = 210; popParams.size() = 1

 We are SAMPLING at time 210



*** Looping through 5.2. Iter = 235 


  iteration 235; minNextMutationTime = 221; timeNextPopSample = 211; popParams.size() = 1

 We are SAMPLING at time 211



*** Looping through 5.2. Iter = 236 


  iteration 236; minNextMutationTime = 222; timeNextPopSample = 212; popParams.size() = 1

 We are SAMPLING at time 212



*** Looping through 5.2. Iter = 237 


  iteration 237; minNextMutationTime = 223; timeNextPopSample = 213; popParams.size() = 1

 We are SAMPLING at time 213



*** Looping through 5.2. Iter = 238 


  iteration 238; minNextMutationTime = 224; timeNextPopSample = 214; popParams.size() = 1

 We are SAMPLING at time 214



*** Looping through 5.2. Iter = 239 


  iteration 239; minNextMutationTime = 214.117; timeNextPopSample = 215; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 240 


  iteration 240; minNextMutationTime = 225; timeNextPopSample = 215; popParams.size() = 2

 We are SAMPLING at time 215



*** Looping through 5.2. Iter = 241 


  iteration 241; minNextMutationTime = 226; timeNextPopSample = 216; popParams.size() = 2

 We are SAMPLING at time 216



*** Looping through 5.2. Iter = 242 


  iteration 242; minNextMutationTime = 227; timeNextPopSample = 217; popParams.size() = 2

 We are SAMPLING at time 217



*** Looping through 5.2. Iter = 243 


  iteration 243; minNextMutationTime = 228; timeNextPopSample = 218; popParams.size() = 2

 We are SAMPLING at time 218



*** Looping through 5.2. Iter = 244 


  iteration 244; minNextMutationTime = 229; timeNextPopSample = 219; popParams.size() = 2

 We are SAMPLING at time 219



*** Looping through 5.2. Iter = 245 


  iteration 245; minNextMutationTime = 230; timeNextPopSample = 220; popParams.size() = 2

 We are SAMPLING at time 220



*** Looping through 5.2. Iter = 246 


  iteration 246; minNextMutationTime = 231; timeNextPopSample = 221; popParams.size() = 2

 We are SAMPLING at time 221



*** Looping through 5.2. Iter = 247 


  iteration 247; minNextMutationTime = 232; timeNextPopSample = 222; popParams.size() = 2

 We are SAMPLING at time 222



*** Looping through 5.2. Iter = 248 


  iteration 248; minNextMutationTime = 233; timeNextPopSample = 223; popParams.size() = 2

 We are SAMPLING at time 223



*** Looping through 5.2. Iter = 249 


  iteration 249; minNextMutationTime = 234; timeNextPopSample = 224; popParams.size() = 2

 We are SAMPLING at time 224



*** Looping through 5.2. Iter = 250 


  iteration 250; minNextMutationTime = 235; timeNextPopSample = 225; popParams.size() = 1

 We are SAMPLING at time 225



*** Looping through 5.2. Iter = 251 


  iteration 251; minNextMutationTime = 236; timeNextPopSample = 226; popParams.size() = 1

 We are SAMPLING at time 226



*** Looping through 5.2. Iter = 252 


  iteration 252; minNextMutationTime = 237; timeNextPopSample = 227; popParams.size() = 1

 We are SAMPLING at time 227



*** Looping through 5.2. Iter = 253 


  iteration 253; minNextMutationTime = 238; timeNextPopSample = 228; popParams.size() = 1

 We are SAMPLING at time 228



*** Looping through 5.2. Iter = 254 


  iteration 254; minNextMutationTime = 239; timeNextPopSample = 229; popParams.size() = 1

 We are SAMPLING at time 229



*** Looping through 5.2. Iter = 255 


  iteration 255; minNextMutationTime = 229.597; timeNextPopSample = 230; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 256 


  iteration 256; minNextMutationTime = 240; timeNextPopSample = 230; popParams.size() = 2

 We are SAMPLING at time 230



*** Looping through 5.2. Iter = 257 


  iteration 257; minNextMutationTime = 241; timeNextPopSample = 231; popParams.size() = 2

 We are SAMPLING at time 231



*** Looping through 5.2. Iter = 258 


  iteration 258; minNextMutationTime = 242; timeNextPopSample = 232; popParams.size() = 1

 We are SAMPLING at time 232



*** Looping through 5.2. Iter = 259 


  iteration 259; minNextMutationTime = 243; timeNextPopSample = 233; popParams.size() = 1

 We are SAMPLING at time 233



*** Looping through 5.2. Iter = 260 


  iteration 260; minNextMutationTime = 244; timeNextPopSample = 234; popParams.size() = 1

 We are SAMPLING at time 234



*** Looping through 5.2. Iter = 261 


  iteration 261; minNextMutationTime = 245; timeNextPopSample = 235; popParams.size() = 1

 We are SAMPLING at time 235



*** Looping through 5.2. Iter = 262 


  iteration 262; minNextMutationTime = 246; timeNextPopSample = 236; popParams.size() = 1

 We are SAMPLING at time 236



*** Looping through 5.2. Iter = 263 


  iteration 263; minNextMutationTime = 247; timeNextPopSample = 237; popParams.size() = 1

 We are SAMPLING at time 237



*** Looping through 5.2. Iter = 264 


  iteration 264; minNextMutationTime = 248; timeNextPopSample = 238; popParams.size() = 1

 We are SAMPLING at time 238



*** Looping through 5.2. Iter = 265 


  iteration 265; minNextMutationTime = 249; timeNextPopSample = 239; popParams.size() = 1

 We are SAMPLING at time 239



*** Looping through 5.2. Iter = 266 


  iteration 266; minNextMutationTime = 250; timeNextPopSample = 240; popParams.size() = 1

 We are SAMPLING at time 240



*** Looping through 5.2. Iter = 267 


  iteration 267; minNextMutationTime = 251; timeNextPopSample = 241; popParams.size() = 1

 We are SAMPLING at time 241



*** Looping through 5.2. Iter = 268 


  iteration 268; minNextMutationTime = 252; timeNextPopSample = 242; popParams.size() = 1

 We are SAMPLING at time 242



*** Looping through 5.2. Iter = 269 


  iteration 269; minNextMutationTime = 253; timeNextPopSample = 243; popParams.size() = 1

 We are SAMPLING at time 243



*** Looping through 5.2. Iter = 270 


  iteration 270; minNextMutationTime = 254; timeNextPopSample = 244; popParams.size() = 1

 We are SAMPLING at time 244



*** Looping through 5.2. Iter = 271 


  iteration 271; minNextMutationTime = 255; timeNextPopSample = 245; popParams.size() = 1

 We are SAMPLING at time 245



*** Looping through 5.2. Iter = 272 


  iteration 272; minNextMutationTime = 256; timeNextPopSample = 246; popParams.size() = 1

 We are SAMPLING at time 246



*** Looping through 5.2. Iter = 273 


  iteration 273; minNextMutationTime = 246.805; timeNextPopSample = 247; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 274 


  iteration 274; minNextMutationTime = 257; timeNextPopSample = 247; popParams.size() = 2

 We are SAMPLING at time 247



*** Looping through 5.2. Iter = 275 


  iteration 275; minNextMutationTime = 258; timeNextPopSample = 248; popParams.size() = 1

 We are SAMPLING at time 248



*** Looping through 5.2. Iter = 276 


  iteration 276; minNextMutationTime = 259; timeNextPopSample = 249; popParams.size() = 1

 We are SAMPLING at time 249



*** Looping through 5.2. Iter = 277 


  iteration 277; minNextMutationTime = 260; timeNextPopSample = 250; popParams.size() = 1

 We are SAMPLING at time 250



*** Looping through 5.2. Iter = 278 


  iteration 278; minNextMutationTime = 261; timeNextPopSample = 251; popParams.size() = 1

 We are SAMPLING at time 251



*** Looping through 5.2. Iter = 279 


  iteration 279; minNextMutationTime = 262; timeNextPopSample = 252; popParams.size() = 1

 We are SAMPLING at time 252



*** Looping through 5.2. Iter = 280 


  iteration 280; minNextMutationTime = 263; timeNextPopSample = 253; popParams.size() = 1

 We are SAMPLING at time 253



*** Looping through 5.2. Iter = 281 


  iteration 281; minNextMutationTime = 253.651; timeNextPopSample = 254; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 282 


  iteration 282; minNextMutationTime = 264; timeNextPopSample = 254; popParams.size() = 2

 We are SAMPLING at time 254



*** Looping through 5.2. Iter = 283 


  iteration 283; minNextMutationTime = 265; timeNextPopSample = 255; popParams.size() = 1

 We are SAMPLING at time 255



*** Looping through 5.2. Iter = 284 


  iteration 284; minNextMutationTime = 266; timeNextPopSample = 256; popParams.size() = 1

 We are SAMPLING at time 256



*** Looping through 5.2. Iter = 285 


  iteration 285; minNextMutationTime = 267; timeNextPopSample = 257; popParams.size() = 1

 We are SAMPLING at time 257



*** Looping through 5.2. Iter = 286 


  iteration 286; minNextMutationTime = 257.043; timeNextPopSample = 258; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 287 


  iteration 287; minNextMutationTime = 268; timeNextPopSample = 258; popParams.size() = 2

 We are SAMPLING at time 258



*** Looping through 5.2. Iter = 288 


  iteration 288; minNextMutationTime = 269; timeNextPopSample = 259; popParams.size() = 2

 We are SAMPLING at time 259



*** Looping through 5.2. Iter = 289 


  iteration 289; minNextMutationTime = 270; timeNextPopSample = 260; popParams.size() = 2

 We are SAMPLING at time 260



*** Looping through 5.2. Iter = 290 


  iteration 290; minNextMutationTime = 271; timeNextPopSample = 261; popParams.size() = 2

 We are SAMPLING at time 261



*** Looping through 5.2. Iter = 291 


  iteration 291; minNextMutationTime = 272; timeNextPopSample = 262; popParams.size() = 2

 We are SAMPLING at time 262



*** Looping through 5.2. Iter = 292 


  iteration 292; minNextMutationTime = 273; timeNextPopSample = 263; popParams.size() = 2

 We are SAMPLING at time 263



*** Looping through 5.2. Iter = 293 


  iteration 293; minNextMutationTime = 274; timeNextPopSample = 264; popParams.size() = 2

 We are SAMPLING at time 264



*** Looping through 5.2. Iter = 294 


  iteration 294; minNextMutationTime = 264.958; timeNextPopSample = 265; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 295 


  iteration 295; minNextMutationTime = 275; timeNextPopSample = 265; popParams.size() = 3

 We are SAMPLING at time 265



*** Looping through 5.2. Iter = 296 


  iteration 296; minNextMutationTime = 276; timeNextPopSample = 266; popParams.size() = 3

 We are SAMPLING at time 266



*** Looping through 5.2. Iter = 297 


  iteration 297; minNextMutationTime = 277; timeNextPopSample = 267; popParams.size() = 2

 We are SAMPLING at time 267



*** Looping through 5.2. Iter = 298 


  iteration 298; minNextMutationTime = 278; timeNextPopSample = 268; popParams.size() = 2

 We are SAMPLING at time 268



*** Looping through 5.2. Iter = 299 


  iteration 299; minNextMutationTime = 279; timeNextPopSample = 269; popParams.size() = 2

 We are SAMPLING at time 269



*** Looping through 5.2. Iter = 300 


  iteration 300; minNextMutationTime = 280; timeNextPopSample = 270; popParams.size() = 2

 We are SAMPLING at time 270



*** Looping through 5.2. Iter = 301 


  iteration 301; minNextMutationTime = 281; timeNextPopSample = 271; popParams.size() = 2

 We are SAMPLING at time 271



*** Looping through 5.2. Iter = 302 


  iteration 302; minNextMutationTime = 282; timeNextPopSample = 272; popParams.size() = 2

 We are SAMPLING at time 272



*** Looping through 5.2. Iter = 303 


  iteration 303; minNextMutationTime = 283; timeNextPopSample = 273; popParams.size() = 2

 We are SAMPLING at time 273



*** Looping through 5.2. Iter = 304 


  iteration 304; minNextMutationTime = 284; timeNextPopSample = 274; popParams.size() = 2

 We are SAMPLING at time 274



*** Looping through 5.2. Iter = 305 


  iteration 305; minNextMutationTime = 285; timeNextPopSample = 275; popParams.size() = 2

 We are SAMPLING at time 275



*** Looping through 5.2. Iter = 306 


  iteration 306; minNextMutationTime = 286; timeNextPopSample = 276; popParams.size() = 2

 We are SAMPLING at time 276



*** Looping through 5.2. Iter = 307 


  iteration 307; minNextMutationTime = 287; timeNextPopSample = 277; popParams.size() = 2

 We are SAMPLING at time 277



*** Looping through 5.2. Iter = 308 


  iteration 308; minNextMutationTime = 288; timeNextPopSample = 278; popParams.size() = 2

 We are SAMPLING at time 278



*** Looping through 5.2. Iter = 309 


  iteration 309; minNextMutationTime = 289; timeNextPopSample = 279; popParams.size() = 2

 We are SAMPLING at time 279



*** Looping through 5.2. Iter = 310 


  iteration 310; minNextMutationTime = 290; timeNextPopSample = 280; popParams.size() = 2

 We are SAMPLING at time 280



*** Looping through 5.2. Iter = 311 


  iteration 311; minNextMutationTime = 291; timeNextPopSample = 281; popParams.size() = 2

 We are SAMPLING at time 281



*** Looping through 5.2. Iter = 312 


  iteration 312; minNextMutationTime = 292; timeNextPopSample = 282; popParams.size() = 2

 We are SAMPLING at time 282



*** Looping through 5.2. Iter = 313 


  iteration 313; minNextMutationTime = 293; timeNextPopSample = 283; popParams.size() = 2

 We are SAMPLING at time 283



*** Looping through 5.2. Iter = 314 


  iteration 314; minNextMutationTime = 294; timeNextPopSample = 284; popParams.size() = 2

 We are SAMPLING at time 284



*** Looping through 5.2. Iter = 315 


  iteration 315; minNextMutationTime = 295; timeNextPopSample = 285; popParams.size() = 2

 We are SAMPLING at time 285



*** Looping through 5.2. Iter = 316 


  iteration 316; minNextMutationTime = 296; timeNextPopSample = 286; popParams.size() = 2

 We are SAMPLING at time 286



*** Looping through 5.2. Iter = 317 


  iteration 317; minNextMutationTime = 297; timeNextPopSample = 287; popParams.size() = 1

 We are SAMPLING at time 287



*** Looping through 5.2. Iter = 318 


  iteration 318; minNextMutationTime = 298; timeNextPopSample = 288; popParams.size() = 1

 We are SAMPLING at time 288



*** Looping through 5.2. Iter = 319 


  iteration 319; minNextMutationTime = 299; timeNextPopSample = 289; popParams.size() = 1

 We are SAMPLING at time 289



*** Looping through 5.2. Iter = 320 


  iteration 320; minNextMutationTime = 289.691; timeNextPopSample = 290; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 321 


  iteration 321; minNextMutationTime = 300; timeNextPopSample = 290; popParams.size() = 2

 We are SAMPLING at time 290



*** Looping through 5.2. Iter = 322 


  iteration 322; minNextMutationTime = 290.2; timeNextPopSample = 291; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 323 


  iteration 323; minNextMutationTime = 301; timeNextPopSample = 291; popParams.size() = 3

 We are SAMPLING at time 291



*** Looping through 5.2. Iter = 324 


  iteration 324; minNextMutationTime = 302; timeNextPopSample = 292; popParams.size() = 2

 We are SAMPLING at time 292



*** Looping through 5.2. Iter = 325 


  iteration 325; minNextMutationTime = 303; timeNextPopSample = 293; popParams.size() = 1

 We are SAMPLING at time 293



*** Looping through 5.2. Iter = 326 


  iteration 326; minNextMutationTime = 304; timeNextPopSample = 294; popParams.size() = 1

 We are SAMPLING at time 294



*** Looping through 5.2. Iter = 327 


  iteration 327; minNextMutationTime = 305; timeNextPopSample = 295; popParams.size() = 1

 We are SAMPLING at time 295



*** Looping through 5.2. Iter = 328 


  iteration 328; minNextMutationTime = 306; timeNextPopSample = 296; popParams.size() = 1

 We are SAMPLING at time 296



*** Looping through 5.2. Iter = 329 


  iteration 329; minNextMutationTime = 307; timeNextPopSample = 297; popParams.size() = 1

 We are SAMPLING at time 297



*** Looping through 5.2. Iter = 330 


  iteration 330; minNextMutationTime = 308; timeNextPopSample = 298; popParams.size() = 1

 We are SAMPLING at time 298



*** Looping through 5.2. Iter = 331 


  iteration 331; minNextMutationTime = 298.63; timeNextPopSample = 299; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 332 


  iteration 332; minNextMutationTime = 309; timeNextPopSample = 299; popParams.size() = 2

 We are SAMPLING at time 299



*** Looping through 5.2. Iter = 333 


  iteration 333; minNextMutationTime = 310; timeNextPopSample = 300; popParams.size() = 2

 We are SAMPLING at time 300



*** Looping through 5.2. Iter = 334 


  iteration 334; minNextMutationTime = 311; timeNextPopSample = 301; popParams.size() = 2

 We are SAMPLING at time 301



*** Looping through 5.2. Iter = 335 


  iteration 335; minNextMutationTime = 312; timeNextPopSample = 302; popParams.size() = 2

 We are SAMPLING at time 302



*** Looping through 5.2. Iter = 336 


  iteration 336; minNextMutationTime = 313; timeNextPopSample = 303; popParams.size() = 1

 We are SAMPLING at time 303



*** Looping through 5.2. Iter = 337 


  iteration 337; minNextMutationTime = 314; timeNextPopSample = 304; popParams.size() = 1

 We are SAMPLING at time 304



*** Looping through 5.2. Iter = 338 


  iteration 338; minNextMutationTime = 304.339; timeNextPopSample = 305; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 339 


  iteration 339; minNextMutationTime = 315; timeNextPopSample = 305; popParams.size() = 2

 We are SAMPLING at time 305



*** Looping through 5.2. Iter = 340 


  iteration 340; minNextMutationTime = 305.871; timeNextPopSample = 306; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 341 


  iteration 341; minNextMutationTime = 316; timeNextPopSample = 306; popParams.size() = 2

 We are SAMPLING at time 306



*** Looping through 5.2. Iter = 342 


  iteration 342; minNextMutationTime = 306.671; timeNextPopSample = 307; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 343 


  iteration 343; minNextMutationTime = 317; timeNextPopSample = 307; popParams.size() = 3

 We are SAMPLING at time 307



*** Looping through 5.2. Iter = 344 


  iteration 344; minNextMutationTime = 307.134; timeNextPopSample = 308; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 345 


  iteration 345; minNextMutationTime = 307.761; timeNextPopSample = 308; popParams.size() = 3

     Creating new species   3         from species 0


*** Looping through 5.2. Iter = 346 


  iteration 346; minNextMutationTime = 318; timeNextPopSample = 308; popParams.size() = 4

 We are SAMPLING at time 308



*** Looping through 5.2. Iter = 347 


  iteration 347; minNextMutationTime = 319; timeNextPopSample = 309; popParams.size() = 3

 We are SAMPLING at time 309



*** Looping through 5.2. Iter = 348 


  iteration 348; minNextMutationTime = 320; timeNextPopSample = 310; popParams.size() = 3

 We are SAMPLING at time 310



*** Looping through 5.2. Iter = 349 


  iteration 349; minNextMutationTime = 321; timeNextPopSample = 311; popParams.size() = 2

 We are SAMPLING at time 311



*** Looping through 5.2. Iter = 350 


  iteration 350; minNextMutationTime = 322; timeNextPopSample = 312; popParams.size() = 2

 We are SAMPLING at time 312



*** Looping through 5.2. Iter = 351 


  iteration 351; minNextMutationTime = 323; timeNextPopSample = 313; popParams.size() = 2

 We are SAMPLING at time 313



*** Looping through 5.2. Iter = 352 


  iteration 352; minNextMutationTime = 324; timeNextPopSample = 314; popParams.size() = 1

 We are SAMPLING at time 314



*** Looping through 5.2. Iter = 353 


  iteration 353; minNextMutationTime = 314.403; timeNextPopSample = 315; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 354 


  iteration 354; minNextMutationTime = 325; timeNextPopSample = 315; popParams.size() = 2

 We are SAMPLING at time 315



*** Looping through 5.2. Iter = 355 


  iteration 355; minNextMutationTime = 326; timeNextPopSample = 316; popParams.size() = 2

 We are SAMPLING at time 316



*** Looping through 5.2. Iter = 356 


  iteration 356; minNextMutationTime = 327; timeNextPopSample = 317; popParams.size() = 2

 We are SAMPLING at time 317



*** Looping through 5.2. Iter = 357 


  iteration 357; minNextMutationTime = 328; timeNextPopSample = 318; popParams.size() = 1

 We are SAMPLING at time 318



*** Looping through 5.2. Iter = 358 


  iteration 358; minNextMutationTime = 329; timeNextPopSample = 319; popParams.size() = 1

 We are SAMPLING at time 319



*** Looping through 5.2. Iter = 359 


  iteration 359; minNextMutationTime = 319.208; timeNextPopSample = 320; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 360 


  iteration 360; minNextMutationTime = 330; timeNextPopSample = 320; popParams.size() = 2

 We are SAMPLING at time 320



*** Looping through 5.2. Iter = 361 


  iteration 361; minNextMutationTime = 331; timeNextPopSample = 321; popParams.size() = 2

 We are SAMPLING at time 321



*** Looping through 5.2. Iter = 362 


  iteration 362; minNextMutationTime = 332; timeNextPopSample = 322; popParams.size() = 2

 We are SAMPLING at time 322



*** Looping through 5.2. Iter = 363 


  iteration 363; minNextMutationTime = 333; timeNextPopSample = 323; popParams.size() = 2

 We are SAMPLING at time 323



*** Looping through 5.2. Iter = 364 


  iteration 364; minNextMutationTime = 334; timeNextPopSample = 324; popParams.size() = 2

 We are SAMPLING at time 324



*** Looping through 5.2. Iter = 365 


  iteration 365; minNextMutationTime = 335; timeNextPopSample = 325; popParams.size() = 2

 We are SAMPLING at time 325



*** Looping through 5.2. Iter = 366 


  iteration 366; minNextMutationTime = 336; timeNextPopSample = 326; popParams.size() = 2

 We are SAMPLING at time 326



*** Looping through 5.2. Iter = 367 


  iteration 367; minNextMutationTime = 337; timeNextPopSample = 327; popParams.size() = 2

 We are SAMPLING at time 327



*** Looping through 5.2. Iter = 368 


  iteration 368; minNextMutationTime = 338; timeNextPopSample = 328; popParams.size() = 2

 We are SAMPLING at time 328



*** Looping through 5.2. Iter = 369 


  iteration 369; minNextMutationTime = 339; timeNextPopSample = 329; popParams.size() = 2

 We are SAMPLING at time 329



*** Looping through 5.2. Iter = 370 


  iteration 370; minNextMutationTime = 340; timeNextPopSample = 330; popParams.size() = 2

 We are SAMPLING at time 330



*** Looping through 5.2. Iter = 371 


  iteration 371; minNextMutationTime = 341; timeNextPopSample = 331; popParams.size() = 1

 We are SAMPLING at time 331



*** Looping through 5.2. Iter = 372 


  iteration 372; minNextMutationTime = 342; timeNextPopSample = 332; popParams.size() = 1

 We are SAMPLING at time 332



*** Looping through 5.2. Iter = 373 


  iteration 373; minNextMutationTime = 343; timeNextPopSample = 333; popParams.size() = 1

 We are SAMPLING at time 333



*** Looping through 5.2. Iter = 374 


  iteration 374; minNextMutationTime = 344; timeNextPopSample = 334; popParams.size() = 1

 We are SAMPLING at time 334



*** Looping through 5.2. Iter = 375 


  iteration 375; minNextMutationTime = 345; timeNextPopSample = 335; popParams.size() = 1

 We are SAMPLING at time 335



*** Looping through 5.2. Iter = 376 


  iteration 376; minNextMutationTime = 335.414; timeNextPopSample = 336; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 377 


  iteration 377; minNextMutationTime = 346; timeNextPopSample = 336; popParams.size() = 2

 We are SAMPLING at time 336



*** Looping through 5.2. Iter = 378 


  iteration 378; minNextMutationTime = 347; timeNextPopSample = 337; popParams.size() = 1

 We are SAMPLING at time 337



*** Looping through 5.2. Iter = 379 


  iteration 379; minNextMutationTime = 348; timeNextPopSample = 338; popParams.size() = 1

 We are SAMPLING at time 338



*** Looping through 5.2. Iter = 380 


  iteration 380; minNextMutationTime = 349; timeNextPopSample = 339; popParams.size() = 1

 We are SAMPLING at time 339



*** Looping through 5.2. Iter = 381 


  iteration 381; minNextMutationTime = 350; timeNextPopSample = 340; popParams.size() = 1

 We are SAMPLING at time 340



*** Looping through 5.2. Iter = 382 


  iteration 382; minNextMutationTime = 351; timeNextPopSample = 341; popParams.size() = 1

 We are SAMPLING at time 341



*** Looping through 5.2. Iter = 383 


  iteration 383; minNextMutationTime = 352; timeNextPopSample = 342; popParams.size() = 1

 We are SAMPLING at time 342



*** Looping through 5.2. Iter = 384 


  iteration 384; minNextMutationTime = 353; timeNextPopSample = 343; popParams.size() = 1

 We are SAMPLING at time 343



*** Looping through 5.2. Iter = 385 


  iteration 385; minNextMutationTime = 354; timeNextPopSample = 344; popParams.size() = 1

 We are SAMPLING at time 344



*** Looping through 5.2. Iter = 386 


  iteration 386; minNextMutationTime = 355; timeNextPopSample = 345; popParams.size() = 1

 We are SAMPLING at time 345



*** Looping through 5.2. Iter = 387 


  iteration 387; minNextMutationTime = 356; timeNextPopSample = 346; popParams.size() = 1

 We are SAMPLING at time 346



*** Looping through 5.2. Iter = 388 


  iteration 388; minNextMutationTime = 357; timeNextPopSample = 347; popParams.size() = 1

 We are SAMPLING at time 347



*** Looping through 5.2. Iter = 389 


  iteration 389; minNextMutationTime = 358; timeNextPopSample = 348; popParams.size() = 1

 We are SAMPLING at time 348



*** Looping through 5.2. Iter = 390 


  iteration 390; minNextMutationTime = 359; timeNextPopSample = 349; popParams.size() = 1

 We are SAMPLING at time 349



*** Looping through 5.2. Iter = 391 


  iteration 391; minNextMutationTime = 360; timeNextPopSample = 350; popParams.size() = 1

 We are SAMPLING at time 350



*** Looping through 5.2. Iter = 392 


  iteration 392; minNextMutationTime = 361; timeNextPopSample = 351; popParams.size() = 1

 We are SAMPLING at time 351



*** Looping through 5.2. Iter = 393 


  iteration 393; minNextMutationTime = 362; timeNextPopSample = 352; popParams.size() = 1

 We are SAMPLING at time 352



*** Looping through 5.2. Iter = 394 


  iteration 394; minNextMutationTime = 363; timeNextPopSample = 353; popParams.size() = 1

 We are SAMPLING at time 353



*** Looping through 5.2. Iter = 395 


  iteration 395; minNextMutationTime = 364; timeNextPopSample = 354; popParams.size() = 1

 We are SAMPLING at time 354



*** Looping through 5.2. Iter = 396 


  iteration 396; minNextMutationTime = 365; timeNextPopSample = 355; popParams.size() = 1

 We are SAMPLING at time 355



*** Looping through 5.2. Iter = 397 


  iteration 397; minNextMutationTime = 366; timeNextPopSample = 356; popParams.size() = 1

 We are SAMPLING at time 356



*** Looping through 5.2. Iter = 398 


  iteration 398; minNextMutationTime = 367; timeNextPopSample = 357; popParams.size() = 1

 We are SAMPLING at time 357



*** Looping through 5.2. Iter = 399 


  iteration 399; minNextMutationTime = 368; timeNextPopSample = 358; popParams.size() = 1

 We are SAMPLING at time 358



*** Looping through 5.2. Iter = 400 


  iteration 400; minNextMutationTime = 369; timeNextPopSample = 359; popParams.size() = 1

 We are SAMPLING at time 359



*** Looping through 5.2. Iter = 401 


  iteration 401; minNextMutationTime = 370; timeNextPopSample = 360; popParams.size() = 1

 We are SAMPLING at time 360



*** Looping through 5.2. Iter = 402 


  iteration 402; minNextMutationTime = 371; timeNextPopSample = 361; popParams.size() = 1

 We are SAMPLING at time 361



*** Looping through 5.2. Iter = 403 


  iteration 403; minNextMutationTime = 372; timeNextPopSample = 362; popParams.size() = 1

 We are SAMPLING at time 362



*** Looping through 5.2. Iter = 404 


  iteration 404; minNextMutationTime = 373; timeNextPopSample = 363; popParams.size() = 1

 We are SAMPLING at time 363



*** Looping through 5.2. Iter = 405 


  iteration 405; minNextMutationTime = 374; timeNextPopSample = 364; popParams.size() = 1

 We are SAMPLING at time 364



*** Looping through 5.2. Iter = 406 


  iteration 406; minNextMutationTime = 364.118; timeNextPopSample = 365; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 407 


  iteration 407; minNextMutationTime = 375; timeNextPopSample = 365; popParams.size() = 2

 We are SAMPLING at time 365



*** Looping through 5.2. Iter = 408 


  iteration 408; minNextMutationTime = 376; timeNextPopSample = 366; popParams.size() = 2

 We are SAMPLING at time 366



*** Looping through 5.2. Iter = 409 


  iteration 409; minNextMutationTime = 377; timeNextPopSample = 367; popParams.size() = 1

 We are SAMPLING at time 367



*** Looping through 5.2. Iter = 410 


  iteration 410; minNextMutationTime = 378; timeNextPopSample = 368; popParams.size() = 1

 We are SAMPLING at time 368



*** Looping through 5.2. Iter = 411 


  iteration 411; minNextMutationTime = 379; timeNextPopSample = 369; popParams.size() = 1

 We are SAMPLING at time 369



*** Looping through 5.2. Iter = 412 


  iteration 412; minNextMutationTime = 380; timeNextPopSample = 370; popParams.size() = 1

 We are SAMPLING at time 370



*** Looping through 5.2. Iter = 413 


  iteration 413; minNextMutationTime = 381; timeNextPopSample = 371; popParams.size() = 1

 We are SAMPLING at time 371



*** Looping through 5.2. Iter = 414 


  iteration 414; minNextMutationTime = 382; timeNextPopSample = 372; popParams.size() = 1

 We are SAMPLING at time 372



*** Looping through 5.2. Iter = 415 


  iteration 415; minNextMutationTime = 383; timeNextPopSample = 373; popParams.size() = 1

 We are SAMPLING at time 373



*** Looping through 5.2. Iter = 416 


  iteration 416; minNextMutationTime = 384; timeNextPopSample = 374; popParams.size() = 1

 We are SAMPLING at time 374



*** Looping through 5.2. Iter = 417 


  iteration 417; minNextMutationTime = 385; timeNextPopSample = 375; popParams.size() = 1

 We are SAMPLING at time 375



*** Looping through 5.2. Iter = 418 


  iteration 418; minNextMutationTime = 375.289; timeNextPopSample = 376; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 419 


  iteration 419; minNextMutationTime = 386; timeNextPopSample = 376; popParams.size() = 2

 We are SAMPLING at time 376



*** Looping through 5.2. Iter = 420 


  iteration 420; minNextMutationTime = 387; timeNextPopSample = 377; popParams.size() = 2

 We are SAMPLING at time 377



*** Looping through 5.2. Iter = 421 


  iteration 421; minNextMutationTime = 388; timeNextPopSample = 378; popParams.size() = 2

 We are SAMPLING at time 378



*** Looping through 5.2. Iter = 422 


  iteration 422; minNextMutationTime = 389; timeNextPopSample = 379; popParams.size() = 1

 We are SAMPLING at time 379



*** Looping through 5.2. Iter = 423 


  iteration 423; minNextMutationTime = 390; timeNextPopSample = 380; popParams.size() = 1

 We are SAMPLING at time 380



*** Looping through 5.2. Iter = 424 


  iteration 424; minNextMutationTime = 391; timeNextPopSample = 381; popParams.size() = 1

 We are SAMPLING at time 381



*** Looping through 5.2. Iter = 425 


  iteration 425; minNextMutationTime = 392; timeNextPopSample = 382; popParams.size() = 1

 We are SAMPLING at time 382



*** Looping through 5.2. Iter = 426 


  iteration 426; minNextMutationTime = 393; timeNextPopSample = 383; popParams.size() = 1

 We are SAMPLING at time 383



*** Looping through 5.2. Iter = 427 


  iteration 427; minNextMutationTime = 394; timeNextPopSample = 384; popParams.size() = 1

 We are SAMPLING at time 384



*** Looping through 5.2. Iter = 428 


  iteration 428; minNextMutationTime = 395; timeNextPopSample = 385; popParams.size() = 1

 We are SAMPLING at time 385



*** Looping through 5.2. Iter = 429 


  iteration 429; minNextMutationTime = 396; timeNextPopSample = 386; popParams.size() = 1

 We are SAMPLING at time 386



*** Looping through 5.2. Iter = 430 


  iteration 430; minNextMutationTime = 397; timeNextPopSample = 387; popParams.size() = 1

 We are SAMPLING at time 387



*** Looping through 5.2. Iter = 431 


  iteration 431; minNextMutationTime = 398; timeNextPopSample = 388; popParams.size() = 1

 We are SAMPLING at time 388



*** Looping through 5.2. Iter = 432 


  iteration 432; minNextMutationTime = 399; timeNextPopSample = 389; popParams.size() = 1

 We are SAMPLING at time 389



*** Looping through 5.2. Iter = 433 


  iteration 433; minNextMutationTime = 389.199; timeNextPopSample = 390; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 434 


  iteration 434; minNextMutationTime = 400; timeNextPopSample = 390; popParams.size() = 2

 We are SAMPLING at time 390



*** Looping through 5.2. Iter = 435 


  iteration 435; minNextMutationTime = 401; timeNextPopSample = 391; popParams.size() = 2

 We are SAMPLING at time 391



*** Looping through 5.2. Iter = 436 


  iteration 436; minNextMutationTime = 402; timeNextPopSample = 392; popParams.size() = 1

 We are SAMPLING at time 392



*** Looping through 5.2. Iter = 437 


  iteration 437; minNextMutationTime = 403; timeNextPopSample = 393; popParams.size() = 1

 We are SAMPLING at time 393



*** Looping through 5.2. Iter = 438 


  iteration 438; minNextMutationTime = 404; timeNextPopSample = 394; popParams.size() = 1

 We are SAMPLING at time 394



*** Looping through 5.2. Iter = 439 


  iteration 439; minNextMutationTime = 405; timeNextPopSample = 395; popParams.size() = 1

 We are SAMPLING at time 395



*** Looping through 5.2. Iter = 440 


  iteration 440; minNextMutationTime = 406; timeNextPopSample = 396; popParams.size() = 1

 We are SAMPLING at time 396



*** Looping through 5.2. Iter = 441 


  iteration 441; minNextMutationTime = 407; timeNextPopSample = 397; popParams.size() = 1

 We are SAMPLING at time 397



*** Looping through 5.2. Iter = 442 


  iteration 442; minNextMutationTime = 397.439; timeNextPopSample = 398; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 443 


  iteration 443; minNextMutationTime = 408; timeNextPopSample = 398; popParams.size() = 2

 We are SAMPLING at time 398



*** Looping through 5.2. Iter = 444 


  iteration 444; minNextMutationTime = 409; timeNextPopSample = 399; popParams.size() = 1

 We are SAMPLING at time 399



*** Looping through 5.2. Iter = 445 


  iteration 445; minNextMutationTime = 410; timeNextPopSample = 400; popParams.size() = 1

 We are SAMPLING at time 400



*** Looping through 5.2. Iter = 446 


  iteration 446; minNextMutationTime = 411; timeNextPopSample = 401; popParams.size() = 1

 We are SAMPLING at time 401



*** Looping through 5.2. Iter = 447 


  iteration 447; minNextMutationTime = 412; timeNextPopSample = 402; popParams.size() = 1

 We are SAMPLING at time 402



*** Looping through 5.2. Iter = 448 


  iteration 448; minNextMutationTime = 413; timeNextPopSample = 403; popParams.size() = 1

 We are SAMPLING at time 403



*** Looping through 5.2. Iter = 449 


  iteration 449; minNextMutationTime = 414; timeNextPopSample = 404; popParams.size() = 1

 We are SAMPLING at time 404



*** Looping through 5.2. Iter = 450 


  iteration 450; minNextMutationTime = 415; timeNextPopSample = 405; popParams.size() = 1

 We are SAMPLING at time 405



*** Looping through 5.2. Iter = 451 


  iteration 451; minNextMutationTime = 416; timeNextPopSample = 406; popParams.size() = 1

 We are SAMPLING at time 406



*** Looping through 5.2. Iter = 452 


  iteration 452; minNextMutationTime = 417; timeNextPopSample = 407; popParams.size() = 1

 We are SAMPLING at time 407



*** Looping through 5.2. Iter = 453 


  iteration 453; minNextMutationTime = 418; timeNextPopSample = 408; popParams.size() = 1

 We are SAMPLING at time 408



*** Looping through 5.2. Iter = 454 


  iteration 454; minNextMutationTime = 419; timeNextPopSample = 409; popParams.size() = 1

 We are SAMPLING at time 409



*** Looping through 5.2. Iter = 455 


  iteration 455; minNextMutationTime = 420; timeNextPopSample = 410; popParams.size() = 1

 We are SAMPLING at time 410



*** Looping through 5.2. Iter = 456 


  iteration 456; minNextMutationTime = 421; timeNextPopSample = 411; popParams.size() = 1

 We are SAMPLING at time 411



*** Looping through 5.2. Iter = 457 


  iteration 457; minNextMutationTime = 422; timeNextPopSample = 412; popParams.size() = 1

 We are SAMPLING at time 412



*** Looping through 5.2. Iter = 458 


  iteration 458; minNextMutationTime = 423; timeNextPopSample = 413; popParams.size() = 1

 We are SAMPLING at time 413



*** Looping through 5.2. Iter = 459 


  iteration 459; minNextMutationTime = 424; timeNextPopSample = 414; popParams.size() = 1

 We are SAMPLING at time 414



*** Looping through 5.2. Iter = 460 


  iteration 460; minNextMutationTime = 414.539; timeNextPopSample = 415; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 461 


  iteration 461; minNextMutationTime = 425; timeNextPopSample = 415; popParams.size() = 2

 We are SAMPLING at time 415



*** Looping through 5.2. Iter = 462 


  iteration 462; minNextMutationTime = 426; timeNextPopSample = 416; popParams.size() = 2

 We are SAMPLING at time 416



*** Looping through 5.2. Iter = 463 


  iteration 463; minNextMutationTime = 427; timeNextPopSample = 417; popParams.size() = 1

 We are SAMPLING at time 417



*** Looping through 5.2. Iter = 464 


  iteration 464; minNextMutationTime = 428; timeNextPopSample = 418; popParams.size() = 1

 We are SAMPLING at time 418



*** Looping through 5.2. Iter = 465 


  iteration 465; minNextMutationTime = 429; timeNextPopSample = 419; popParams.size() = 1

 We are SAMPLING at time 419



*** Looping through 5.2. Iter = 466 


  iteration 466; minNextMutationTime = 430; timeNextPopSample = 420; popParams.size() = 1

 We are SAMPLING at time 420



*** Looping through 5.2. Iter = 467 


  iteration 467; minNextMutationTime = 431; timeNextPopSample = 421; popParams.size() = 1

 We are SAMPLING at time 421



*** Looping through 5.2. Iter = 468 


  iteration 468; minNextMutationTime = 432; timeNextPopSample = 422; popParams.size() = 1

 We are SAMPLING at time 422



*** Looping through 5.2. Iter = 469 


  iteration 469; minNextMutationTime = 433; timeNextPopSample = 423; popParams.size() = 1

 We are SAMPLING at time 423



*** Looping through 5.2. Iter = 470 


  iteration 470; minNextMutationTime = 434; timeNextPopSample = 424; popParams.size() = 1

 We are SAMPLING at time 424



*** Looping through 5.2. Iter = 471 


  iteration 471; minNextMutationTime = 435; timeNextPopSample = 425; popParams.size() = 1

 We are SAMPLING at time 425



*** Looping through 5.2. Iter = 472 


  iteration 472; minNextMutationTime = 436; timeNextPopSample = 426; popParams.size() = 1

 We are SAMPLING at time 426



*** Looping through 5.2. Iter = 473 


  iteration 473; minNextMutationTime = 437; timeNextPopSample = 427; popParams.size() = 1

 We are SAMPLING at time 427



*** Looping through 5.2. Iter = 474 


  iteration 474; minNextMutationTime = 438; timeNextPopSample = 428; popParams.size() = 1

 We are SAMPLING at time 428



*** Looping through 5.2. Iter = 475 


  iteration 475; minNextMutationTime = 439; timeNextPopSample = 429; popParams.size() = 1

 We are SAMPLING at time 429



*** Looping through 5.2. Iter = 476 


  iteration 476; minNextMutationTime = 440; timeNextPopSample = 430; popParams.size() = 1

 We are SAMPLING at time 430



*** Looping through 5.2. Iter = 477 


  iteration 477; minNextMutationTime = 441; timeNextPopSample = 431; popParams.size() = 1

 We are SAMPLING at time 431



*** Looping through 5.2. Iter = 478 


  iteration 478; minNextMutationTime = 442; timeNextPopSample = 432; popParams.size() = 1

 We are SAMPLING at time 432



*** Looping through 5.2. Iter = 479 


  iteration 479; minNextMutationTime = 443; timeNextPopSample = 433; popParams.size() = 1

 We are SAMPLING at time 433



*** Looping through 5.2. Iter = 480 


  iteration 480; minNextMutationTime = 444; timeNextPopSample = 434; popParams.size() = 1

 We are SAMPLING at time 434



*** Looping through 5.2. Iter = 481 


  iteration 481; minNextMutationTime = 445; timeNextPopSample = 435; popParams.size() = 1

 We are SAMPLING at time 435



*** Looping through 5.2. Iter = 482 


  iteration 482; minNextMutationTime = 446; timeNextPopSample = 436; popParams.size() = 1

 We are SAMPLING at time 436



*** Looping through 5.2. Iter = 483 


  iteration 483; minNextMutationTime = 447; timeNextPopSample = 437; popParams.size() = 1

 We are SAMPLING at time 437



*** Looping through 5.2. Iter = 484 


  iteration 484; minNextMutationTime = 448; timeNextPopSample = 438; popParams.size() = 1

 We are SAMPLING at time 438



*** Looping through 5.2. Iter = 485 


  iteration 485; minNextMutationTime = 449; timeNextPopSample = 439; popParams.size() = 1

 We are SAMPLING at time 439



*** Looping through 5.2. Iter = 486 


  iteration 486; minNextMutationTime = 450; timeNextPopSample = 440; popParams.size() = 1

 We are SAMPLING at time 440



*** Looping through 5.2. Iter = 487 


  iteration 487; minNextMutationTime = 451; timeNextPopSample = 441; popParams.size() = 1

 We are SAMPLING at time 441



*** Looping through 5.2. Iter = 488 


  iteration 488; minNextMutationTime = 452; timeNextPopSample = 442; popParams.size() = 1

 We are SAMPLING at time 442



*** Looping through 5.2. Iter = 489 


  iteration 489; minNextMutationTime = 453; timeNextPopSample = 443; popParams.size() = 1

 We are SAMPLING at time 443



*** Looping through 5.2. Iter = 490 


  iteration 490; minNextMutationTime = 454; timeNextPopSample = 444; popParams.size() = 1

 We are SAMPLING at time 444



*** Looping through 5.2. Iter = 491 


  iteration 491; minNextMutationTime = 455; timeNextPopSample = 445; popParams.size() = 1

 We are SAMPLING at time 445



*** Looping through 5.2. Iter = 492 


  iteration 492; minNextMutationTime = 456; timeNextPopSample = 446; popParams.size() = 1

 We are SAMPLING at time 446



*** Looping through 5.2. Iter = 493 


  iteration 493; minNextMutationTime = 457; timeNextPopSample = 447; popParams.size() = 1

 We are SAMPLING at time 447



*** Looping through 5.2. Iter = 494 


  iteration 494; minNextMutationTime = 458; timeNextPopSample = 448; popParams.size() = 1

 We are SAMPLING at time 448



*** Looping through 5.2. Iter = 495 


  iteration 495; minNextMutationTime = 459; timeNextPopSample = 449; popParams.size() = 1

 We are SAMPLING at time 449



*** Looping through 5.2. Iter = 496 


  iteration 496; minNextMutationTime = 460; timeNextPopSample = 450; popParams.size() = 1

 We are SAMPLING at time 450



*** Looping through 5.2. Iter = 497 


  iteration 497; minNextMutationTime = 461; timeNextPopSample = 451; popParams.size() = 1

 We are SAMPLING at time 451



*** Looping through 5.2. Iter = 498 


  iteration 498; minNextMutationTime = 462; timeNextPopSample = 452; popParams.size() = 1

 We are SAMPLING at time 452



*** Looping through 5.2. Iter = 499 


  iteration 499; minNextMutationTime = 463; timeNextPopSample = 453; popParams.size() = 1

 We are SAMPLING at time 453



*** Looping through 5.2. Iter = 500 


  iteration 500; minNextMutationTime = 464; timeNextPopSample = 454; popParams.size() = 1

 We are SAMPLING at time 454



*** Looping through 5.2. Iter = 501 


  iteration 501; minNextMutationTime = 465; timeNextPopSample = 455; popParams.size() = 1

 We are SAMPLING at time 455



*** Looping through 5.2. Iter = 502 


  iteration 502; minNextMutationTime = 466; timeNextPopSample = 456; popParams.size() = 1

 We are SAMPLING at time 456



*** Looping through 5.2. Iter = 503 


  iteration 503; minNextMutationTime = 467; timeNextPopSample = 457; popParams.size() = 1

 We are SAMPLING at time 457



*** Looping through 5.2. Iter = 504 


  iteration 504; minNextMutationTime = 468; timeNextPopSample = 458; popParams.size() = 1

 We are SAMPLING at time 458



*** Looping through 5.2. Iter = 505 


  iteration 505; minNextMutationTime = 469; timeNextPopSample = 459; popParams.size() = 1

 We are SAMPLING at time 459



*** Looping through 5.2. Iter = 506 


  iteration 506; minNextMutationTime = 470; timeNextPopSample = 460; popParams.size() = 1

 We are SAMPLING at time 460



*** Looping through 5.2. Iter = 507 


  iteration 507; minNextMutationTime = 471; timeNextPopSample = 461; popParams.size() = 1

 We are SAMPLING at time 461



*** Looping through 5.2. Iter = 508 


  iteration 508; minNextMutationTime = 472; timeNextPopSample = 462; popParams.size() = 1

 We are SAMPLING at time 462



*** Looping through 5.2. Iter = 509 


  iteration 509; minNextMutationTime = 473; timeNextPopSample = 463; popParams.size() = 1

 We are SAMPLING at time 463



*** Looping through 5.2. Iter = 510 


  iteration 510; minNextMutationTime = 474; timeNextPopSample = 464; popParams.size() = 1

 We are SAMPLING at time 464



*** Looping through 5.2. Iter = 511 


  iteration 511; minNextMutationTime = 475; timeNextPopSample = 465; popParams.size() = 1

 We are SAMPLING at time 465



*** Looping through 5.2. Iter = 512 


  iteration 512; minNextMutationTime = 476; timeNextPopSample = 466; popParams.size() = 1

 We are SAMPLING at time 466



*** Looping through 5.2. Iter = 513 


  iteration 513; minNextMutationTime = 477; timeNextPopSample = 467; popParams.size() = 1

 We are SAMPLING at time 467



*** Looping through 5.2. Iter = 514 


  iteration 514; minNextMutationTime = 478; timeNextPopSample = 468; popParams.size() = 1

 We are SAMPLING at time 468



*** Looping through 5.2. Iter = 515 


  iteration 515; minNextMutationTime = 479; timeNextPopSample = 469; popParams.size() = 1

 We are SAMPLING at time 469



*** Looping through 5.2. Iter = 516 


  iteration 516; minNextMutationTime = 480; timeNextPopSample = 470; popParams.size() = 1

 We are SAMPLING at time 470



*** Looping through 5.2. Iter = 517 


  iteration 517; minNextMutationTime = 481; timeNextPopSample = 471; popParams.size() = 1

 We are SAMPLING at time 471



*** Looping through 5.2. Iter = 518 


  iteration 518; minNextMutationTime = 482; timeNextPopSample = 472; popParams.size() = 1

 We are SAMPLING at time 472



*** Looping through 5.2. Iter = 519 


  iteration 519; minNextMutationTime = 483; timeNextPopSample = 473; popParams.size() = 1

 We are SAMPLING at time 473



*** Looping through 5.2. Iter = 520 


  iteration 520; minNextMutationTime = 484; timeNextPopSample = 474; popParams.size() = 1

 We are SAMPLING at time 474



*** Looping through 5.2. Iter = 521 


  iteration 521; minNextMutationTime = 474.208; timeNextPopSample = 475; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 522 


  iteration 522; minNextMutationTime = 485; timeNextPopSample = 475; popParams.size() = 2

 We are SAMPLING at time 475



*** Looping through 5.2. Iter = 523 


  iteration 523; minNextMutationTime = 486; timeNextPopSample = 476; popParams.size() = 1

 We are SAMPLING at time 476



*** Looping through 5.2. Iter = 524 


  iteration 524; minNextMutationTime = 487; timeNextPopSample = 477; popParams.size() = 1

 We are SAMPLING at time 477



*** Looping through 5.2. Iter = 525 


  iteration 525; minNextMutationTime = 488; timeNextPopSample = 478; popParams.size() = 1

 We are SAMPLING at time 478



*** Looping through 5.2. Iter = 526 


  iteration 526; minNextMutationTime = 489; timeNextPopSample = 479; popParams.size() = 1

 We are SAMPLING at time 479



*** Looping through 5.2. Iter = 527 


  iteration 527; minNextMutationTime = 490; timeNextPopSample = 480; popParams.size() = 1

 We are SAMPLING at time 480



*** Looping through 5.2. Iter = 528 


  iteration 528; minNextMutationTime = 491; timeNextPopSample = 481; popParams.size() = 1

 We are SAMPLING at time 481



*** Looping through 5.2. Iter = 529 


  iteration 529; minNextMutationTime = 492; timeNextPopSample = 482; popParams.size() = 1

 We are SAMPLING at time 482



*** Looping through 5.2. Iter = 530 


  iteration 530; minNextMutationTime = 493; timeNextPopSample = 483; popParams.size() = 1

 We are SAMPLING at time 483



*** Looping through 5.2. Iter = 531 


  iteration 531; minNextMutationTime = 494; timeNextPopSample = 484; popParams.size() = 1

 We are SAMPLING at time 484



*** Looping through 5.2. Iter = 532 


  iteration 532; minNextMutationTime = 495; timeNextPopSample = 485; popParams.size() = 1

 We are SAMPLING at time 485



*** Looping through 5.2. Iter = 533 


  iteration 533; minNextMutationTime = 496; timeNextPopSample = 486; popParams.size() = 1

 We are SAMPLING at time 486



*** Looping through 5.2. Iter = 534 


  iteration 534; minNextMutationTime = 497; timeNextPopSample = 487; popParams.size() = 1

 We are SAMPLING at time 487



*** Looping through 5.2. Iter = 535 


  iteration 535; minNextMutationTime = 498; timeNextPopSample = 488; popParams.size() = 1

 We are SAMPLING at time 488



*** Looping through 5.2. Iter = 536 


  iteration 536; minNextMutationTime = 499; timeNextPopSample = 489; popParams.size() = 1

 We are SAMPLING at time 489



*** Looping through 5.2. Iter = 537 


  iteration 537; minNextMutationTime = 500; timeNextPopSample = 490; popParams.size() = 1

 We are SAMPLING at time 490



*** Looping through 5.2. Iter = 538 


  iteration 538; minNextMutationTime = 501; timeNextPopSample = 491; popParams.size() = 1

 We are SAMPLING at time 491



*** Looping through 5.2. Iter = 539 


  iteration 539; minNextMutationTime = 502; timeNextPopSample = 492; popParams.size() = 1

 We are SAMPLING at time 492



*** Looping through 5.2. Iter = 540 


  iteration 540; minNextMutationTime = 503; timeNextPopSample = 493; popParams.size() = 1

 We are SAMPLING at time 493



*** Looping through 5.2. Iter = 541 


  iteration 541; minNextMutationTime = 504; timeNextPopSample = 494; popParams.size() = 1

 We are SAMPLING at time 494



*** Looping through 5.2. Iter = 542 


  iteration 542; minNextMutationTime = 505; timeNextPopSample = 495; popParams.size() = 1

 We are SAMPLING at time 495



*** Looping through 5.2. Iter = 543 


  iteration 543; minNextMutationTime = 506; timeNextPopSample = 496; popParams.size() = 1

 We are SAMPLING at time 496



*** Looping through 5.2. Iter = 544 


  iteration 544; minNextMutationTime = 507; timeNextPopSample = 497; popParams.size() = 1

 We are SAMPLING at time 497



*** Looping through 5.2. Iter = 545 


  iteration 545; minNextMutationTime = 508; timeNextPopSample = 498; popParams.size() = 1

 We are SAMPLING at time 498



*** Looping through 5.2. Iter = 546 


  iteration 546; minNextMutationTime = 509; timeNextPopSample = 499; popParams.size() = 1

 We are SAMPLING at time 499



*** Looping through 5.2. Iter = 547 


  iteration 547; minNextMutationTime = 510; timeNextPopSample = 500; popParams.size() = 1

 We are SAMPLING at time 500



*** Looping through 5.2. Iter = 548 


  iteration 548; minNextMutationTime = 511; timeNextPopSample = 501; popParams.size() = 1

 We are SAMPLING at time 501



*** Looping through 5.2. Iter = 549 


  iteration 549; minNextMutationTime = 512; timeNextPopSample = 502; popParams.size() = 1

 We are SAMPLING at time 502



*** Looping through 5.2. Iter = 550 


  iteration 550; minNextMutationTime = 513; timeNextPopSample = 503; popParams.size() = 1

 We are SAMPLING at time 503



*** Looping through 5.2. Iter = 551 


  iteration 551; minNextMutationTime = 514; timeNextPopSample = 504; popParams.size() = 1

 We are SAMPLING at time 504



*** Looping through 5.2. Iter = 552 


  iteration 552; minNextMutationTime = 515; timeNextPopSample = 505; popParams.size() = 1

 We are SAMPLING at time 505



*** Looping through 5.2. Iter = 553 


  iteration 553; minNextMutationTime = 516; timeNextPopSample = 506; popParams.size() = 1

 We are SAMPLING at time 506



*** Looping through 5.2. Iter = 554 


  iteration 554; minNextMutationTime = 517; timeNextPopSample = 507; popParams.size() = 1

 We are SAMPLING at time 507



*** Looping through 5.2. Iter = 555 


  iteration 555; minNextMutationTime = 518; timeNextPopSample = 508; popParams.size() = 1

 We are SAMPLING at time 508



*** Looping through 5.2. Iter = 556 


  iteration 556; minNextMutationTime = 519; timeNextPopSample = 509; popParams.size() = 1

 We are SAMPLING at time 509



*** Looping through 5.2. Iter = 557 


  iteration 557; minNextMutationTime = 509.923; timeNextPopSample = 510; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 558 


  iteration 558; minNextMutationTime = 520; timeNextPopSample = 510; popParams.size() = 2

 We are SAMPLING at time 510



*** Looping through 5.2. Iter = 559 


  iteration 559; minNextMutationTime = 521; timeNextPopSample = 511; popParams.size() = 2

 We are SAMPLING at time 511



*** Looping through 5.2. Iter = 560 


  iteration 560; minNextMutationTime = 522; timeNextPopSample = 512; popParams.size() = 2

 We are SAMPLING at time 512



*** Looping through 5.2. Iter = 561 


  iteration 561; minNextMutationTime = 523; timeNextPopSample = 513; popParams.size() = 2

 We are SAMPLING at time 513



*** Looping through 5.2. Iter = 562 


  iteration 562; minNextMutationTime = 524; timeNextPopSample = 514; popParams.size() = 2

 We are SAMPLING at time 514



*** Looping through 5.2. Iter = 563 


  iteration 563; minNextMutationTime = 525; timeNextPopSample = 515; popParams.size() = 2

 We are SAMPLING at time 515



*** Looping through 5.2. Iter = 564 


  iteration 564; minNextMutationTime = 526; timeNextPopSample = 516; popParams.size() = 2

 We are SAMPLING at time 516



*** Looping through 5.2. Iter = 565 


  iteration 565; minNextMutationTime = 527; timeNextPopSample = 517; popParams.size() = 2

 We are SAMPLING at time 517



*** Looping through 5.2. Iter = 566 


  iteration 566; minNextMutationTime = 528; timeNextPopSample = 518; popParams.size() = 2

 We are SAMPLING at time 518



*** Looping through 5.2. Iter = 567 


  iteration 567; minNextMutationTime = 529; timeNextPopSample = 519; popParams.size() = 2

 We are SAMPLING at time 519



*** Looping through 5.2. Iter = 568 


  iteration 568; minNextMutationTime = 530; timeNextPopSample = 520; popParams.size() = 2

 We are SAMPLING at time 520



*** Looping through 5.2. Iter = 569 


  iteration 569; minNextMutationTime = 531; timeNextPopSample = 521; popParams.size() = 2

 We are SAMPLING at time 521



*** Looping through 5.2. Iter = 570 


  iteration 570; minNextMutationTime = 532; timeNextPopSample = 522; popParams.size() = 2

 We are SAMPLING at time 522



*** Looping through 5.2. Iter = 571 


  iteration 571; minNextMutationTime = 533; timeNextPopSample = 523; popParams.size() = 2

 We are SAMPLING at time 523



*** Looping through 5.2. Iter = 572 


  iteration 572; minNextMutationTime = 534; timeNextPopSample = 524; popParams.size() = 2

 We are SAMPLING at time 524



*** Looping through 5.2. Iter = 573 


  iteration 573; minNextMutationTime = 535; timeNextPopSample = 525; popParams.size() = 2

 We are SAMPLING at time 525



*** Looping through 5.2. Iter = 574 


  iteration 574; minNextMutationTime = 536; timeNextPopSample = 526; popParams.size() = 2

 We are SAMPLING at time 526



*** Looping through 5.2. Iter = 575 


  iteration 575; minNextMutationTime = 537; timeNextPopSample = 527; popParams.size() = 2

 We are SAMPLING at time 527



*** Looping through 5.2. Iter = 576 


  iteration 576; minNextMutationTime = 538; timeNextPopSample = 528; popParams.size() = 2

 We are SAMPLING at time 528



*** Looping through 5.2. Iter = 577 


  iteration 577; minNextMutationTime = 539; timeNextPopSample = 529; popParams.size() = 2

 We are SAMPLING at time 529



*** Looping through 5.2. Iter = 578 


  iteration 578; minNextMutationTime = 540; timeNextPopSample = 530; popParams.size() = 2

 We are SAMPLING at time 530



*** Looping through 5.2. Iter = 579 


  iteration 579; minNextMutationTime = 541; timeNextPopSample = 531; popParams.size() = 2

 We are SAMPLING at time 531



*** Looping through 5.2. Iter = 580 


  iteration 580; minNextMutationTime = 531.183; timeNextPopSample = 532; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 581 


  iteration 581; minNextMutationTime = 542; timeNextPopSample = 532; popParams.size() = 3

 We are SAMPLING at time 532



*** Looping through 5.2. Iter = 582 


  iteration 582; minNextMutationTime = 543; timeNextPopSample = 533; popParams.size() = 2

 We are SAMPLING at time 533



*** Looping through 5.2. Iter = 583 


  iteration 583; minNextMutationTime = 544; timeNextPopSample = 534; popParams.size() = 2

 We are SAMPLING at time 534



*** Looping through 5.2. Iter = 584 


  iteration 584; minNextMutationTime = 545; timeNextPopSample = 535; popParams.size() = 2

 We are SAMPLING at time 535



*** Looping through 5.2. Iter = 585 


  iteration 585; minNextMutationTime = 546; timeNextPopSample = 536; popParams.size() = 2

 We are SAMPLING at time 536



*** Looping through 5.2. Iter = 586 


  iteration 586; minNextMutationTime = 547; timeNextPopSample = 537; popParams.size() = 2

 We are SAMPLING at time 537



*** Looping through 5.2. Iter = 587 


  iteration 587; minNextMutationTime = 548; timeNextPopSample = 538; popParams.size() = 2

 We are SAMPLING at time 538



*** Looping through 5.2. Iter = 588 


  iteration 588; minNextMutationTime = 549; timeNextPopSample = 539; popParams.size() = 2

 We are SAMPLING at time 539



*** Looping through 5.2. Iter = 589 


  iteration 589; minNextMutationTime = 550; timeNextPopSample = 540; popParams.size() = 2

 We are SAMPLING at time 540



*** Looping through 5.2. Iter = 590 


  iteration 590; minNextMutationTime = 551; timeNextPopSample = 541; popParams.size() = 2

 We are SAMPLING at time 541



*** Looping through 5.2. Iter = 591 


  iteration 591; minNextMutationTime = 541.778; timeNextPopSample = 542; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 592 


  iteration 592; minNextMutationTime = 541.818; timeNextPopSample = 542; popParams.size() = 3

     Mutated to existing species 2 (Genotype = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 1)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 1)
 New popSize = 2



*** Looping through 5.2. Iter = 593 


  iteration 593; minNextMutationTime = 552; timeNextPopSample = 542; popParams.size() = 3

 We are SAMPLING at time 542



*** Looping through 5.2. Iter = 594 


  iteration 594; minNextMutationTime = 553; timeNextPopSample = 543; popParams.size() = 3

 We are SAMPLING at time 543



*** Looping through 5.2. Iter = 595 


  iteration 595; minNextMutationTime = 554; timeNextPopSample = 544; popParams.size() = 3

 We are SAMPLING at time 544



*** Looping through 5.2. Iter = 596 


  iteration 596; minNextMutationTime = 555; timeNextPopSample = 545; popParams.size() = 3

 We are SAMPLING at time 545



*** Looping through 5.2. Iter = 597 


  iteration 597; minNextMutationTime = 545.268; timeNextPopSample = 546; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 598 


  iteration 598; minNextMutationTime = 556; timeNextPopSample = 546; popParams.size() = 3

 We are SAMPLING at time 546



*** Looping through 5.2. Iter = 599 


  iteration 599; minNextMutationTime = 546.63; timeNextPopSample = 547; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 600 


  iteration 600; minNextMutationTime = 546.811; timeNextPopSample = 547; popParams.size() = 3

     Creating new species   3         from species 0


*** Looping through 5.2. Iter = 601 


  iteration 601; minNextMutationTime = 557; timeNextPopSample = 547; popParams.size() = 4

 We are SAMPLING at time 547



*** Looping through 5.2. Iter = 602 


  iteration 602; minNextMutationTime = 558; timeNextPopSample = 548; popParams.size() = 3

 We are SAMPLING at time 548



*** Looping through 5.2. Iter = 603 


  iteration 603; minNextMutationTime = 559; timeNextPopSample = 549; popParams.size() = 3

 We are SAMPLING at time 549



*** Looping through 5.2. Iter = 604 


  iteration 604; minNextMutationTime = 560; timeNextPopSample = 550; popParams.size() = 2

 We are SAMPLING at time 550



*** Looping through 5.2. Iter = 605 


  iteration 605; minNextMutationTime = 561; timeNextPopSample = 551; popParams.size() = 2

 We are SAMPLING at time 551



*** Looping through 5.2. Iter = 606 


  iteration 606; minNextMutationTime = 551.65; timeNextPopSample = 552; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 607 


  iteration 607; minNextMutationTime = 562; timeNextPopSample = 552; popParams.size() = 3

 We are SAMPLING at time 552



*** Looping through 5.2. Iter = 608 


  iteration 608; minNextMutationTime = 563; timeNextPopSample = 553; popParams.size() = 3

 We are SAMPLING at time 553



*** Looping through 5.2. Iter = 609 


  iteration 609; minNextMutationTime = 564; timeNextPopSample = 554; popParams.size() = 3

 We are SAMPLING at time 554



*** Looping through 5.2. Iter = 610 


  iteration 610; minNextMutationTime = 565; timeNextPopSample = 555; popParams.size() = 3

 We are SAMPLING at time 555



*** Looping through 5.2. Iter = 611 


  iteration 611; minNextMutationTime = 555.315; timeNextPopSample = 556; popParams.size() = 3

     Creating new species   3         from species 0


*** Looping through 5.2. Iter = 612 


  iteration 612; minNextMutationTime = 566; timeNextPopSample = 556; popParams.size() = 4

 We are SAMPLING at time 556



*** Looping through 5.2. Iter = 613 


  iteration 613; minNextMutationTime = 567; timeNextPopSample = 557; popParams.size() = 2

 We are SAMPLING at time 557



*** Looping through 5.2. Iter = 614 


  iteration 614; minNextMutationTime = 568; timeNextPopSample = 558; popParams.size() = 2

 We are SAMPLING at time 558



*** Looping through 5.2. Iter = 615 


  iteration 615; minNextMutationTime = 558.352; timeNextPopSample = 559; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 616 


  iteration 616; minNextMutationTime = 569; timeNextPopSample = 559; popParams.size() = 3

 We are SAMPLING at time 559



*** Looping through 5.2. Iter = 617 


  iteration 617; minNextMutationTime = 570; timeNextPopSample = 560; popParams.size() = 3

 We are SAMPLING at time 560



*** Looping through 5.2. Iter = 618 


  iteration 618; minNextMutationTime = 571; timeNextPopSample = 561; popParams.size() = 2

 We are SAMPLING at time 561



*** Looping through 5.2. Iter = 619 


  iteration 619; minNextMutationTime = 572; timeNextPopSample = 562; popParams.size() = 2

 We are SAMPLING at time 562



*** Looping through 5.2. Iter = 620 


  iteration 620; minNextMutationTime = 573; timeNextPopSample = 563; popParams.size() = 2

 We are SAMPLING at time 563



*** Looping through 5.2. Iter = 621 


  iteration 621; minNextMutationTime = 574; timeNextPopSample = 564; popParams.size() = 2

 We are SAMPLING at time 564



*** Looping through 5.2. Iter = 622 


  iteration 622; minNextMutationTime = 575; timeNextPopSample = 565; popParams.size() = 2

 We are SAMPLING at time 565



*** Looping through 5.2. Iter = 623 


  iteration 623; minNextMutationTime = 576; timeNextPopSample = 566; popParams.size() = 2

 We are SAMPLING at time 566



*** Looping through 5.2. Iter = 624 


  iteration 624; minNextMutationTime = 577; timeNextPopSample = 567; popParams.size() = 2

 We are SAMPLING at time 567



*** Looping through 5.2. Iter = 625 


  iteration 625; minNextMutationTime = 578; timeNextPopSample = 568; popParams.size() = 2

 We are SAMPLING at time 568



*** Looping through 5.2. Iter = 626 


  iteration 626; minNextMutationTime = 579; timeNextPopSample = 569; popParams.size() = 2

 We are SAMPLING at time 569



*** Looping through 5.2. Iter = 627 


  iteration 627; minNextMutationTime = 580; timeNextPopSample = 570; popParams.size() = 2

 We are SAMPLING at time 570



*** Looping through 5.2. Iter = 628 


  iteration 628; minNextMutationTime = 581; timeNextPopSample = 571; popParams.size() = 2

 We are SAMPLING at time 571



*** Looping through 5.2. Iter = 629 


  iteration 629; minNextMutationTime = 582; timeNextPopSample = 572; popParams.size() = 2

 We are SAMPLING at time 572



*** Looping through 5.2. Iter = 630 


  iteration 630; minNextMutationTime = 583; timeNextPopSample = 573; popParams.size() = 2

 We are SAMPLING at time 573



*** Looping through 5.2. Iter = 631 


  iteration 631; minNextMutationTime = 584; timeNextPopSample = 574; popParams.size() = 2

 We are SAMPLING at time 574



*** Looping through 5.2. Iter = 632 


  iteration 632; minNextMutationTime = 574.936; timeNextPopSample = 575; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 633 


  iteration 633; minNextMutationTime = 585; timeNextPopSample = 575; popParams.size() = 3

 We are SAMPLING at time 575



*** Looping through 5.2. Iter = 634 


  iteration 634; minNextMutationTime = 586; timeNextPopSample = 576; popParams.size() = 3

 We are SAMPLING at time 576



*** Looping through 5.2. Iter = 635 


  iteration 635; minNextMutationTime = 587; timeNextPopSample = 577; popParams.size() = 3

 We are SAMPLING at time 577



*** Looping through 5.2. Iter = 636 


  iteration 636; minNextMutationTime = 588; timeNextPopSample = 578; popParams.size() = 3

 We are SAMPLING at time 578



*** Looping through 5.2. Iter = 637 


  iteration 637; minNextMutationTime = 589; timeNextPopSample = 579; popParams.size() = 3

 We are SAMPLING at time 579



*** Looping through 5.2. Iter = 638 


  iteration 638; minNextMutationTime = 590; timeNextPopSample = 580; popParams.size() = 3

 We are SAMPLING at time 580



*** Looping through 5.2. Iter = 639 


  iteration 639; minNextMutationTime = 580.273; timeNextPopSample = 581; popParams.size() = 3

     Creating new species   3         from species 0


*** Looping through 5.2. Iter = 640 


  iteration 640; minNextMutationTime = 591; timeNextPopSample = 581; popParams.size() = 4

 We are SAMPLING at time 581



*** Looping through 5.2. Iter = 641 


  iteration 641; minNextMutationTime = 592; timeNextPopSample = 582; popParams.size() = 4

 We are SAMPLING at time 582



*** Looping through 5.2. Iter = 642 


  iteration 642; minNextMutationTime = 593; timeNextPopSample = 583; popParams.size() = 4

 We are SAMPLING at time 583



*** Looping through 5.2. Iter = 643 


  iteration 643; minNextMutationTime = 583.62; timeNextPopSample = 584; popParams.size() = 3

     Creating new species   3         from species 0


*** Looping through 5.2. Iter = 644 


  iteration 644; minNextMutationTime = 594; timeNextPopSample = 584; popParams.size() = 4

 We are SAMPLING at time 584



*** Looping through 5.2. Iter = 645 


  iteration 645; minNextMutationTime = 595; timeNextPopSample = 585; popParams.size() = 4

 We are SAMPLING at time 585



*** Looping through 5.2. Iter = 646 


  iteration 646; minNextMutationTime = 596; timeNextPopSample = 586; popParams.size() = 3

 We are SAMPLING at time 586



*** Looping through 5.2. Iter = 647 


  iteration 647; minNextMutationTime = 597; timeNextPopSample = 587; popParams.size() = 2

 We are SAMPLING at time 587



*** Looping through 5.2. Iter = 648 


  iteration 648; minNextMutationTime = 598; timeNextPopSample = 588; popParams.size() = 2

 We are SAMPLING at time 588



*** Looping through 5.2. Iter = 649 


  iteration 649; minNextMutationTime = 599; timeNextPopSample = 589; popParams.size() = 2

 We are SAMPLING at time 589



*** Looping through 5.2. Iter = 650 


  iteration 650; minNextMutationTime = 589.353; timeNextPopSample = 590; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 651 


  iteration 651; minNextMutationTime = 600; timeNextPopSample = 590; popParams.size() = 3

 We are SAMPLING at time 590



*** Looping through 5.2. Iter = 652 


  iteration 652; minNextMutationTime = 601; timeNextPopSample = 591; popParams.size() = 3

 We are SAMPLING at time 591



*** Looping through 5.2. Iter = 653 


  iteration 653; minNextMutationTime = 602; timeNextPopSample = 592; popParams.size() = 3

 We are SAMPLING at time 592



*** Looping through 5.2. Iter = 654 


  iteration 654; minNextMutationTime = 603; timeNextPopSample = 593; popParams.size() = 3

 We are SAMPLING at time 593



*** Looping through 5.2. Iter = 655 


  iteration 655; minNextMutationTime = 604; timeNextPopSample = 594; popParams.size() = 3

 We are SAMPLING at time 594



*** Looping through 5.2. Iter = 656 


  iteration 656; minNextMutationTime = 605; timeNextPopSample = 595; popParams.size() = 3

 We are SAMPLING at time 595



*** Looping through 5.2. Iter = 657 


  iteration 657; minNextMutationTime = 606; timeNextPopSample = 596; popParams.size() = 3

 We are SAMPLING at time 596



*** Looping through 5.2. Iter = 658 


  iteration 658; minNextMutationTime = 607; timeNextPopSample = 597; popParams.size() = 3

 We are SAMPLING at time 597



*** Looping through 5.2. Iter = 659 


  iteration 659; minNextMutationTime = 608; timeNextPopSample = 598; popParams.size() = 3

 We are SAMPLING at time 598



*** Looping through 5.2. Iter = 660 


  iteration 660; minNextMutationTime = 609; timeNextPopSample = 599; popParams.size() = 3

 We are SAMPLING at time 599



*** Looping through 5.2. Iter = 661 


  iteration 661; minNextMutationTime = 610; timeNextPopSample = 600; popParams.size() = 3

 We are SAMPLING at time 600



*** Looping through 5.2. Iter = 662 


  iteration 662; minNextMutationTime = 611; timeNextPopSample = 601; popParams.size() = 3

 We are SAMPLING at time 601



*** Looping through 5.2. Iter = 663 


  iteration 663; minNextMutationTime = 612; timeNextPopSample = 602; popParams.size() = 3

 We are SAMPLING at time 602



*** Looping through 5.2. Iter = 664 


  iteration 664; minNextMutationTime = 613; timeNextPopSample = 603; popParams.size() = 3

 We are SAMPLING at time 603



*** Looping through 5.2. Iter = 665 


  iteration 665; minNextMutationTime = 614; timeNextPopSample = 604; popParams.size() = 3

 We are SAMPLING at time 604



*** Looping through 5.2. Iter = 666 


  iteration 666; minNextMutationTime = 604.893; timeNextPopSample = 605; popParams.size() = 3

     Creating new species   3         from species 0


*** Looping through 5.2. Iter = 667 


  iteration 667; minNextMutationTime = 615; timeNextPopSample = 605; popParams.size() = 4

 We are SAMPLING at time 605



*** Looping through 5.2. Iter = 668 


  iteration 668; minNextMutationTime = 616; timeNextPopSample = 606; popParams.size() = 4

 We are SAMPLING at time 606



*** Looping through 5.2. Iter = 669 


  iteration 669; minNextMutationTime = 617; timeNextPopSample = 607; popParams.size() = 4

 We are SAMPLING at time 607



*** Looping through 5.2. Iter = 670 


  iteration 670; minNextMutationTime = 618; timeNextPopSample = 608; popParams.size() = 3

 We are SAMPLING at time 608



*** Looping through 5.2. Iter = 671 


  iteration 671; minNextMutationTime = 619; timeNextPopSample = 609; popParams.size() = 3

 We are SAMPLING at time 609



*** Looping through 5.2. Iter = 672 


  iteration 672; minNextMutationTime = 620; timeNextPopSample = 610; popParams.size() = 3

 We are SAMPLING at time 610



*** Looping through 5.2. Iter = 673 


  iteration 673; minNextMutationTime = 621; timeNextPopSample = 611; popParams.size() = 2

 We are SAMPLING at time 611



*** Looping through 5.2. Iter = 674 


  iteration 674; minNextMutationTime = 622; timeNextPopSample = 612; popParams.size() = 2

 We are SAMPLING at time 612



*** Looping through 5.2. Iter = 675 


  iteration 675; minNextMutationTime = 623; timeNextPopSample = 613; popParams.size() = 2

 We are SAMPLING at time 613



*** Looping through 5.2. Iter = 676 


  iteration 676; minNextMutationTime = 613.156; timeNextPopSample = 614; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 677 


  iteration 677; minNextMutationTime = 624; timeNextPopSample = 614; popParams.size() = 3

 We are SAMPLING at time 614



*** Looping through 5.2. Iter = 678 


  iteration 678; minNextMutationTime = 625; timeNextPopSample = 615; popParams.size() = 2

 We are SAMPLING at time 615



*** Looping through 5.2. Iter = 679 


  iteration 679; minNextMutationTime = 626; timeNextPopSample = 616; popParams.size() = 2

 We are SAMPLING at time 616



*** Looping through 5.2. Iter = 680 


  iteration 680; minNextMutationTime = 627; timeNextPopSample = 617; popParams.size() = 2

 We are SAMPLING at time 617



*** Looping through 5.2. Iter = 681 


  iteration 681; minNextMutationTime = 628; timeNextPopSample = 618; popParams.size() = 2

 We are SAMPLING at time 618



*** Looping through 5.2. Iter = 682 


  iteration 682; minNextMutationTime = 629; timeNextPopSample = 619; popParams.size() = 2

 We are SAMPLING at time 619



*** Looping through 5.2. Iter = 683 


  iteration 683; minNextMutationTime = 630; timeNextPopSample = 620; popParams.size() = 2

 We are SAMPLING at time 620



*** Looping through 5.2. Iter = 684 


  iteration 684; minNextMutationTime = 631; timeNextPopSample = 621; popParams.size() = 2

 We are SAMPLING at time 621



*** Looping through 5.2. Iter = 685 


  iteration 685; minNextMutationTime = 621.118; timeNextPopSample = 622; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 686 


  iteration 686; minNextMutationTime = 632; timeNextPopSample = 622; popParams.size() = 3

 We are SAMPLING at time 622



*** Looping through 5.2. Iter = 687 


  iteration 687; minNextMutationTime = 633; timeNextPopSample = 623; popParams.size() = 2

 We are SAMPLING at time 623



*** Looping through 5.2. Iter = 688 


  iteration 688; minNextMutationTime = 634; timeNextPopSample = 624; popParams.size() = 2

 We are SAMPLING at time 624



*** Looping through 5.2. Iter = 689 


  iteration 689; minNextMutationTime = 635; timeNextPopSample = 625; popParams.size() = 2

 We are SAMPLING at time 625



*** Looping through 5.2. Iter = 690 


  iteration 690; minNextMutationTime = 636; timeNextPopSample = 626; popParams.size() = 2

 We are SAMPLING at time 626



*** Looping through 5.2. Iter = 691 


  iteration 691; minNextMutationTime = 637; timeNextPopSample = 627; popParams.size() = 2

 We are SAMPLING at time 627



*** Looping through 5.2. Iter = 692 


  iteration 692; minNextMutationTime = 638; timeNextPopSample = 628; popParams.size() = 2

 We are SAMPLING at time 628



*** Looping through 5.2. Iter = 693 


  iteration 693; minNextMutationTime = 639; timeNextPopSample = 629; popParams.size() = 2

 We are SAMPLING at time 629



*** Looping through 5.2. Iter = 694 


  iteration 694; minNextMutationTime = 640; timeNextPopSample = 630; popParams.size() = 2

 We are SAMPLING at time 630



*** Looping through 5.2. Iter = 695 


  iteration 695; minNextMutationTime = 641; timeNextPopSample = 631; popParams.size() = 2

 We are SAMPLING at time 631



*** Looping through 5.2. Iter = 696 


  iteration 696; minNextMutationTime = 642; timeNextPopSample = 632; popParams.size() = 2

 We are SAMPLING at time 632



*** Looping through 5.2. Iter = 697 


  iteration 697; minNextMutationTime = 632.578; timeNextPopSample = 633; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 698 


  iteration 698; minNextMutationTime = 643; timeNextPopSample = 633; popParams.size() = 3

 We are SAMPLING at time 633



*** Looping through 5.2. Iter = 699 


  iteration 699; minNextMutationTime = 644; timeNextPopSample = 634; popParams.size() = 3

 We are SAMPLING at time 634



*** Looping through 5.2. Iter = 700 


  iteration 700; minNextMutationTime = 645; timeNextPopSample = 635; popParams.size() = 3

 We are SAMPLING at time 635



*** Looping through 5.2. Iter = 701 


  iteration 701; minNextMutationTime = 646; timeNextPopSample = 636; popParams.size() = 3

 We are SAMPLING at time 636



*** Looping through 5.2. Iter = 702 


  iteration 702; minNextMutationTime = 647; timeNextPopSample = 637; popParams.size() = 3

 We are SAMPLING at time 637



*** Looping through 5.2. Iter = 703 


  iteration 703; minNextMutationTime = 648; timeNextPopSample = 638; popParams.size() = 3

 We are SAMPLING at time 638



*** Looping through 5.2. Iter = 704 


  iteration 704; minNextMutationTime = 649; timeNextPopSample = 639; popParams.size() = 3

 We are SAMPLING at time 639



*** Looping through 5.2. Iter = 705 


  iteration 705; minNextMutationTime = 650; timeNextPopSample = 640; popParams.size() = 2

 We are SAMPLING at time 640



*** Looping through 5.2. Iter = 706 


  iteration 706; minNextMutationTime = 651; timeNextPopSample = 641; popParams.size() = 2

 We are SAMPLING at time 641



*** Looping through 5.2. Iter = 707 


  iteration 707; minNextMutationTime = 652; timeNextPopSample = 642; popParams.size() = 2

 We are SAMPLING at time 642



*** Looping through 5.2. Iter = 708 


  iteration 708; minNextMutationTime = 653; timeNextPopSample = 643; popParams.size() = 2

 We are SAMPLING at time 643



*** Looping through 5.2. Iter = 709 


  iteration 709; minNextMutationTime = 654; timeNextPopSample = 644; popParams.size() = 2

 We are SAMPLING at time 644



*** Looping through 5.2. Iter = 710 


  iteration 710; minNextMutationTime = 655; timeNextPopSample = 645; popParams.size() = 2

 We are SAMPLING at time 645



*** Looping through 5.2. Iter = 711 


  iteration 711; minNextMutationTime = 656; timeNextPopSample = 646; popParams.size() = 2

 We are SAMPLING at time 646



*** Looping through 5.2. Iter = 712 


  iteration 712; minNextMutationTime = 657; timeNextPopSample = 647; popParams.size() = 2

 We are SAMPLING at time 647



*** Looping through 5.2. Iter = 713 


  iteration 713; minNextMutationTime = 658; timeNextPopSample = 648; popParams.size() = 2

 We are SAMPLING at time 648



*** Looping through 5.2. Iter = 714 


  iteration 714; minNextMutationTime = 659; timeNextPopSample = 649; popParams.size() = 2

 We are SAMPLING at time 649



*** Looping through 5.2. Iter = 715 


  iteration 715; minNextMutationTime = 660; timeNextPopSample = 650; popParams.size() = 2

 We are SAMPLING at time 650



*** Looping through 5.2. Iter = 716 


  iteration 716; minNextMutationTime = 661; timeNextPopSample = 651; popParams.size() = 2

 We are SAMPLING at time 651



*** Looping through 5.2. Iter = 717 


  iteration 717; minNextMutationTime = 662; timeNextPopSample = 652; popParams.size() = 2

 We are SAMPLING at time 652



*** Looping through 5.2. Iter = 718 


  iteration 718; minNextMutationTime = 663; timeNextPopSample = 653; popParams.size() = 2

 We are SAMPLING at time 653



*** Looping through 5.2. Iter = 719 


  iteration 719; minNextMutationTime = 664; timeNextPopSample = 654; popParams.size() = 2

 We are SAMPLING at time 654



*** Looping through 5.2. Iter = 720 


  iteration 720; minNextMutationTime = 665; timeNextPopSample = 655; popParams.size() = 2

 We are SAMPLING at time 655



*** Looping through 5.2. Iter = 721 


  iteration 721; minNextMutationTime = 666; timeNextPopSample = 656; popParams.size() = 2

 We are SAMPLING at time 656



*** Looping through 5.2. Iter = 722 


  iteration 722; minNextMutationTime = 667; timeNextPopSample = 657; popParams.size() = 2

 We are SAMPLING at time 657



*** Looping through 5.2. Iter = 723 


  iteration 723; minNextMutationTime = 668; timeNextPopSample = 658; popParams.size() = 2

 We are SAMPLING at time 658



*** Looping through 5.2. Iter = 724 


  iteration 724; minNextMutationTime = 669; timeNextPopSample = 659; popParams.size() = 2

 We are SAMPLING at time 659



*** Looping through 5.2. Iter = 725 


  iteration 725; minNextMutationTime = 670; timeNextPopSample = 660; popParams.size() = 2

 We are SAMPLING at time 660



*** Looping through 5.2. Iter = 726 


  iteration 726; minNextMutationTime = 671; timeNextPopSample = 661; popParams.size() = 2

 We are SAMPLING at time 661



*** Looping through 5.2. Iter = 727 


  iteration 727; minNextMutationTime = 672; timeNextPopSample = 662; popParams.size() = 2

 We are SAMPLING at time 662



*** Looping through 5.2. Iter = 728 


  iteration 728; minNextMutationTime = 673; timeNextPopSample = 663; popParams.size() = 2

 We are SAMPLING at time 663



*** Looping through 5.2. Iter = 729 


  iteration 729; minNextMutationTime = 674; timeNextPopSample = 664; popParams.size() = 2

 We are SAMPLING at time 664



*** Looping through 5.2. Iter = 730 


  iteration 730; minNextMutationTime = 675; timeNextPopSample = 665; popParams.size() = 2

 We are SAMPLING at time 665



*** Looping through 5.2. Iter = 731 


  iteration 731; minNextMutationTime = 676; timeNextPopSample = 666; popParams.size() = 2

 We are SAMPLING at time 666



*** Looping through 5.2. Iter = 732 


  iteration 732; minNextMutationTime = 677; timeNextPopSample = 667; popParams.size() = 2

 We are SAMPLING at time 667



*** Looping through 5.2. Iter = 733 


  iteration 733; minNextMutationTime = 678; timeNextPopSample = 668; popParams.size() = 2

 We are SAMPLING at time 668



*** Looping through 5.2. Iter = 734 


  iteration 734; minNextMutationTime = 679; timeNextPopSample = 669; popParams.size() = 2

 We are SAMPLING at time 669



*** Looping through 5.2. Iter = 735 


  iteration 735; minNextMutationTime = 680; timeNextPopSample = 670; popParams.size() = 2

 We are SAMPLING at time 670



*** Looping through 5.2. Iter = 736 


  iteration 736; minNextMutationTime = 681; timeNextPopSample = 671; popParams.size() = 2

 We are SAMPLING at time 671



*** Looping through 5.2. Iter = 737 


  iteration 737; minNextMutationTime = 682; timeNextPopSample = 672; popParams.size() = 2

 We are SAMPLING at time 672



*** Looping through 5.2. Iter = 738 


  iteration 738; minNextMutationTime = 683; timeNextPopSample = 673; popParams.size() = 2

 We are SAMPLING at time 673



*** Looping through 5.2. Iter = 739 


  iteration 739; minNextMutationTime = 684; timeNextPopSample = 674; popParams.size() = 2

 We are SAMPLING at time 674



*** Looping through 5.2. Iter = 740 


  iteration 740; minNextMutationTime = 674.179; timeNextPopSample = 675; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 741 


  iteration 741; minNextMutationTime = 685; timeNextPopSample = 675; popParams.size() = 3

 We are SAMPLING at time 675



*** Looping through 5.2. Iter = 742 


  iteration 742; minNextMutationTime = 686; timeNextPopSample = 676; popParams.size() = 3

 We are SAMPLING at time 676



*** Looping through 5.2. Iter = 743 


  iteration 743; minNextMutationTime = 687; timeNextPopSample = 677; popParams.size() = 3

 We are SAMPLING at time 677



*** Looping through 5.2. Iter = 744 


  iteration 744; minNextMutationTime = 688; timeNextPopSample = 678; popParams.size() = 3

 We are SAMPLING at time 678



*** Looping through 5.2. Iter = 745 


  iteration 745; minNextMutationTime = 689; timeNextPopSample = 679; popParams.size() = 2

 We are SAMPLING at time 679



*** Looping through 5.2. Iter = 746 


  iteration 746; minNextMutationTime = 690; timeNextPopSample = 680; popParams.size() = 2

 We are SAMPLING at time 680



*** Looping through 5.2. Iter = 747 


  iteration 747; minNextMutationTime = 691; timeNextPopSample = 681; popParams.size() = 2

 We are SAMPLING at time 681



*** Looping through 5.2. Iter = 748 


  iteration 748; minNextMutationTime = 692; timeNextPopSample = 682; popParams.size() = 2

 We are SAMPLING at time 682



*** Looping through 5.2. Iter = 749 


  iteration 749; minNextMutationTime = 693; timeNextPopSample = 683; popParams.size() = 2

 We are SAMPLING at time 683



*** Looping through 5.2. Iter = 750 


  iteration 750; minNextMutationTime = 683.963; timeNextPopSample = 684; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 751 


  iteration 751; minNextMutationTime = 694; timeNextPopSample = 684; popParams.size() = 3

 We are SAMPLING at time 684



*** Looping through 5.2. Iter = 752 


  iteration 752; minNextMutationTime = 695; timeNextPopSample = 685; popParams.size() = 3

 We are SAMPLING at time 685



*** Looping through 5.2. Iter = 753 


  iteration 753; minNextMutationTime = 696; timeNextPopSample = 686; popParams.size() = 2

 We are SAMPLING at time 686



*** Looping through 5.2. Iter = 754 


  iteration 754; minNextMutationTime = 697; timeNextPopSample = 687; popParams.size() = 2

 We are SAMPLING at time 687



*** Looping through 5.2. Iter = 755 


  iteration 755; minNextMutationTime = 698; timeNextPopSample = 688; popParams.size() = 2

 We are SAMPLING at time 688



*** Looping through 5.2. Iter = 756 


  iteration 756; minNextMutationTime = 699; timeNextPopSample = 689; popParams.size() = 2

 We are SAMPLING at time 689



*** Looping through 5.2. Iter = 757 


  iteration 757; minNextMutationTime = 700; timeNextPopSample = 690; popParams.size() = 2

 We are SAMPLING at time 690



*** Looping through 5.2. Iter = 758 


  iteration 758; minNextMutationTime = 701; timeNextPopSample = 691; popParams.size() = 2

 We are SAMPLING at time 691



*** Looping through 5.2. Iter = 759 


  iteration 759; minNextMutationTime = 702; timeNextPopSample = 692; popParams.size() = 2

 We are SAMPLING at time 692



*** Looping through 5.2. Iter = 760 


  iteration 760; minNextMutationTime = 703; timeNextPopSample = 693; popParams.size() = 2

 We are SAMPLING at time 693



*** Looping through 5.2. Iter = 761 


  iteration 761; minNextMutationTime = 704; timeNextPopSample = 694; popParams.size() = 2

 We are SAMPLING at time 694



*** Looping through 5.2. Iter = 762 


  iteration 762; minNextMutationTime = 705; timeNextPopSample = 695; popParams.size() = 2

 We are SAMPLING at time 695



*** Looping through 5.2. Iter = 763 


  iteration 763; minNextMutationTime = 706; timeNextPopSample = 696; popParams.size() = 2

 We are SAMPLING at time 696



*** Looping through 5.2. Iter = 764 


  iteration 764; minNextMutationTime = 707; timeNextPopSample = 697; popParams.size() = 2

 We are SAMPLING at time 697



*** Looping through 5.2. Iter = 765 


  iteration 765; minNextMutationTime = 708; timeNextPopSample = 698; popParams.size() = 2

 We are SAMPLING at time 698



*** Looping through 5.2. Iter = 766 


  iteration 766; minNextMutationTime = 709; timeNextPopSample = 699; popParams.size() = 2

 We are SAMPLING at time 699



*** Looping through 5.2. Iter = 767 


  iteration 767; minNextMutationTime = 710; timeNextPopSample = 700; popParams.size() = 2

 We are SAMPLING at time 700



*** Looping through 5.2. Iter = 768 


  iteration 768; minNextMutationTime = 711; timeNextPopSample = 701; popParams.size() = 2

 We are SAMPLING at time 701



*** Looping through 5.2. Iter = 769 


  iteration 769; minNextMutationTime = 712; timeNextPopSample = 702; popParams.size() = 2

 We are SAMPLING at time 702



*** Looping through 5.2. Iter = 770 


  iteration 770; minNextMutationTime = 713; timeNextPopSample = 703; popParams.size() = 2

 We are SAMPLING at time 703



*** Looping through 5.2. Iter = 771 


  iteration 771; minNextMutationTime = 714; timeNextPopSample = 704; popParams.size() = 2

 We are SAMPLING at time 704



*** Looping through 5.2. Iter = 772 


  iteration 772; minNextMutationTime = 715; timeNextPopSample = 705; popParams.size() = 2

 We are SAMPLING at time 705



*** Looping through 5.2. Iter = 773 


  iteration 773; minNextMutationTime = 716; timeNextPopSample = 706; popParams.size() = 2

 We are SAMPLING at time 706



*** Looping through 5.2. Iter = 774 


  iteration 774; minNextMutationTime = 717; timeNextPopSample = 707; popParams.size() = 2

 We are SAMPLING at time 707



*** Looping through 5.2. Iter = 775 


  iteration 775; minNextMutationTime = 718; timeNextPopSample = 708; popParams.size() = 2

 We are SAMPLING at time 708



*** Looping through 5.2. Iter = 776 


  iteration 776; minNextMutationTime = 719; timeNextPopSample = 709; popParams.size() = 2

 We are SAMPLING at time 709



*** Looping through 5.2. Iter = 777 


  iteration 777; minNextMutationTime = 720; timeNextPopSample = 710; popParams.size() = 2

 We are SAMPLING at time 710



*** Looping through 5.2. Iter = 778 


  iteration 778; minNextMutationTime = 721; timeNextPopSample = 711; popParams.size() = 2

 We are SAMPLING at time 711



*** Looping through 5.2. Iter = 779 


  iteration 779; minNextMutationTime = 722; timeNextPopSample = 712; popParams.size() = 2

 We are SAMPLING at time 712



*** Looping through 5.2. Iter = 780 


  iteration 780; minNextMutationTime = 723; timeNextPopSample = 713; popParams.size() = 2

 We are SAMPLING at time 713



*** Looping through 5.2. Iter = 781 


  iteration 781; minNextMutationTime = 724; timeNextPopSample = 714; popParams.size() = 2

 We are SAMPLING at time 714



*** Looping through 5.2. Iter = 782 


  iteration 782; minNextMutationTime = 725; timeNextPopSample = 715; popParams.size() = 2

 We are SAMPLING at time 715



*** Looping through 5.2. Iter = 783 


  iteration 783; minNextMutationTime = 726; timeNextPopSample = 716; popParams.size() = 2

 We are SAMPLING at time 716



*** Looping through 5.2. Iter = 784 


  iteration 784; minNextMutationTime = 727; timeNextPopSample = 717; popParams.size() = 2

 We are SAMPLING at time 717



*** Looping through 5.2. Iter = 785 


  iteration 785; minNextMutationTime = 717.879; timeNextPopSample = 718; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 786 


  iteration 786; minNextMutationTime = 728; timeNextPopSample = 718; popParams.size() = 3

 We are SAMPLING at time 718



*** Looping through 5.2. Iter = 787 


  iteration 787; minNextMutationTime = 729; timeNextPopSample = 719; popParams.size() = 3

 We are SAMPLING at time 719



*** Looping through 5.2. Iter = 788 


  iteration 788; minNextMutationTime = 730; timeNextPopSample = 720; popParams.size() = 3

 We are SAMPLING at time 720



*** Looping through 5.2. Iter = 789 


  iteration 789; minNextMutationTime = 731; timeNextPopSample = 721; popParams.size() = 2

 We are SAMPLING at time 721



*** Looping through 5.2. Iter = 790 


  iteration 790; minNextMutationTime = 732; timeNextPopSample = 722; popParams.size() = 2

 We are SAMPLING at time 722



*** Looping through 5.2. Iter = 791 


  iteration 791; minNextMutationTime = 733; timeNextPopSample = 723; popParams.size() = 2

 We are SAMPLING at time 723



*** Looping through 5.2. Iter = 792 


  iteration 792; minNextMutationTime = 734; timeNextPopSample = 724; popParams.size() = 2

 We are SAMPLING at time 724



*** Looping through 5.2. Iter = 793 


  iteration 793; minNextMutationTime = 735; timeNextPopSample = 725; popParams.size() = 2

 We are SAMPLING at time 725



*** Looping through 5.2. Iter = 794 


  iteration 794; minNextMutationTime = 736; timeNextPopSample = 726; popParams.size() = 2

 We are SAMPLING at time 726



*** Looping through 5.2. Iter = 795 


  iteration 795; minNextMutationTime = 737; timeNextPopSample = 727; popParams.size() = 2

 We are SAMPLING at time 727



*** Looping through 5.2. Iter = 796 


  iteration 796; minNextMutationTime = 727.114; timeNextPopSample = 728; popParams.size() = 2

     Mutated to existing species 1 (Genotype = 0000000000000000000000000000000000000000000000000000000000100000; sp_id = 32)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 32)
 New popSize = 151



*** Looping through 5.2. Iter = 797 


  iteration 797; minNextMutationTime = 738; timeNextPopSample = 728; popParams.size() = 2

 We are SAMPLING at time 728



*** Looping through 5.2. Iter = 798 


  iteration 798; minNextMutationTime = 739; timeNextPopSample = 729; popParams.size() = 2

 We are SAMPLING at time 729



*** Looping through 5.2. Iter = 799 


  iteration 799; minNextMutationTime = 740; timeNextPopSample = 730; popParams.size() = 2

 We are SAMPLING at time 730



*** Looping through 5.2. Iter = 800 


  iteration 800; minNextMutationTime = 741; timeNextPopSample = 731; popParams.size() = 2

 We are SAMPLING at time 731



*** Looping through 5.2. Iter = 801 


  iteration 801; minNextMutationTime = 742; timeNextPopSample = 732; popParams.size() = 2

 We are SAMPLING at time 732



*** Looping through 5.2. Iter = 802 


  iteration 802; minNextMutationTime = 743; timeNextPopSample = 733; popParams.size() = 2

 We are SAMPLING at time 733



*** Looping through 5.2. Iter = 803 


  iteration 803; minNextMutationTime = 744; timeNextPopSample = 734; popParams.size() = 2

 We are SAMPLING at time 734



*** Looping through 5.2. Iter = 804 


  iteration 804; minNextMutationTime = 745; timeNextPopSample = 735; popParams.size() = 2

 We are SAMPLING at time 735



*** Looping through 5.2. Iter = 805 


  iteration 805; minNextMutationTime = 746; timeNextPopSample = 736; popParams.size() = 2

 We are SAMPLING at time 736



*** Looping through 5.2. Iter = 806 


  iteration 806; minNextMutationTime = 747; timeNextPopSample = 737; popParams.size() = 2

 We are SAMPLING at time 737



*** Looping through 5.2. Iter = 807 


  iteration 807; minNextMutationTime = 748; timeNextPopSample = 738; popParams.size() = 2

 We are SAMPLING at time 738



*** Looping through 5.2. Iter = 808 


  iteration 808; minNextMutationTime = 749; timeNextPopSample = 739; popParams.size() = 2

 We are SAMPLING at time 739



*** Looping through 5.2. Iter = 809 


  iteration 809; minNextMutationTime = 750; timeNextPopSample = 740; popParams.size() = 2

 We are SAMPLING at time 740



*** Looping through 5.2. Iter = 810 


  iteration 810; minNextMutationTime = 751; timeNextPopSample = 741; popParams.size() = 2

 We are SAMPLING at time 741



*** Looping through 5.2. Iter = 811 


  iteration 811; minNextMutationTime = 752; timeNextPopSample = 742; popParams.size() = 2

 We are SAMPLING at time 742



*** Looping through 5.2. Iter = 812 


  iteration 812; minNextMutationTime = 753; timeNextPopSample = 743; popParams.size() = 2

 We are SAMPLING at time 743



*** Looping through 5.2. Iter = 813 


  iteration 813; minNextMutationTime = 754; timeNextPopSample = 744; popParams.size() = 2

 We are SAMPLING at time 744



*** Looping through 5.2. Iter = 814 


  iteration 814; minNextMutationTime = 755; timeNextPopSample = 745; popParams.size() = 2

 We are SAMPLING at time 745



*** Looping through 5.2. Iter = 815 


  iteration 815; minNextMutationTime = 756; timeNextPopSample = 746; popParams.size() = 2

 We are SAMPLING at time 746



*** Looping through 5.2. Iter = 816 


  iteration 816; minNextMutationTime = 757; timeNextPopSample = 747; popParams.size() = 2

 We are SAMPLING at time 747



*** Looping through 5.2. Iter = 817 


  iteration 817; minNextMutationTime = 758; timeNextPopSample = 748; popParams.size() = 2

 We are SAMPLING at time 748



*** Looping through 5.2. Iter = 818 


  iteration 818; minNextMutationTime = 759; timeNextPopSample = 749; popParams.size() = 2

 We are SAMPLING at time 749



*** Looping through 5.2. Iter = 819 


  iteration 819; minNextMutationTime = 760; timeNextPopSample = 750; popParams.size() = 2

 We are SAMPLING at time 750



*** Looping through 5.2. Iter = 820 


  iteration 820; minNextMutationTime = 761; timeNextPopSample = 751; popParams.size() = 2

 We are SAMPLING at time 751



*** Looping through 5.2. Iter = 821 


  iteration 821; minNextMutationTime = 762; timeNextPopSample = 752; popParams.size() = 2

 We are SAMPLING at time 752



*** Looping through 5.2. Iter = 822 


  iteration 822; minNextMutationTime = 763; timeNextPopSample = 753; popParams.size() = 2

 We are SAMPLING at time 753



*** Looping through 5.2. Iter = 823 


  iteration 823; minNextMutationTime = 764; timeNextPopSample = 754; popParams.size() = 2

 We are SAMPLING at time 754



*** Looping through 5.2. Iter = 824 


  iteration 824; minNextMutationTime = 765; timeNextPopSample = 755; popParams.size() = 2

 We are SAMPLING at time 755



*** Looping through 5.2. Iter = 825 


  iteration 825; minNextMutationTime = 766; timeNextPopSample = 756; popParams.size() = 2

 We are SAMPLING at time 756



*** Looping through 5.2. Iter = 826 


  iteration 826; minNextMutationTime = 756.947; timeNextPopSample = 757; popParams.size() = 2

     Mutated to existing species 1 (Genotype = 0000000000000000000000000000000000000000000000000000000000100000; sp_id = 32)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 32)
 New popSize = 78



*** Looping through 5.2. Iter = 827 


  iteration 827; minNextMutationTime = 767; timeNextPopSample = 757; popParams.size() = 2

 We are SAMPLING at time 757



*** Looping through 5.2. Iter = 828 


  iteration 828; minNextMutationTime = 768; timeNextPopSample = 758; popParams.size() = 2

 We are SAMPLING at time 758



*** Looping through 5.2. Iter = 829 


  iteration 829; minNextMutationTime = 769; timeNextPopSample = 759; popParams.size() = 2

 We are SAMPLING at time 759



*** Looping through 5.2. Iter = 830 


  iteration 830; minNextMutationTime = 770; timeNextPopSample = 760; popParams.size() = 2

 We are SAMPLING at time 760



*** Looping through 5.2. Iter = 831 


  iteration 831; minNextMutationTime = 771; timeNextPopSample = 761; popParams.size() = 2

 We are SAMPLING at time 761



*** Looping through 5.2. Iter = 832 


  iteration 832; minNextMutationTime = 772; timeNextPopSample = 762; popParams.size() = 2

 We are SAMPLING at time 762



*** Looping through 5.2. Iter = 833 


  iteration 833; minNextMutationTime = 773; timeNextPopSample = 763; popParams.size() = 2

 We are SAMPLING at time 763



*** Looping through 5.2. Iter = 834 


  iteration 834; minNextMutationTime = 774; timeNextPopSample = 764; popParams.size() = 2

 We are SAMPLING at time 764



*** Looping through 5.2. Iter = 835 


  iteration 835; minNextMutationTime = 764.994; timeNextPopSample = 765; popParams.size() = 2

     Mutated to existing species 1 (Genotype = 0000000000000000000000000000000000000000000000000000000000100000; sp_id = 32)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 32)
 New popSize = 28



*** Looping through 5.2. Iter = 836 


  iteration 836; minNextMutationTime = 775; timeNextPopSample = 765; popParams.size() = 2

 We are SAMPLING at time 765



*** Looping through 5.2. Iter = 837 


  iteration 837; minNextMutationTime = 776; timeNextPopSample = 766; popParams.size() = 2

 We are SAMPLING at time 766



*** Looping through 5.2. Iter = 838 


  iteration 838; minNextMutationTime = 777; timeNextPopSample = 767; popParams.size() = 2

 We are SAMPLING at time 767



*** Looping through 5.2. Iter = 839 


  iteration 839; minNextMutationTime = 778; timeNextPopSample = 768; popParams.size() = 2

 We are SAMPLING at time 768



*** Looping through 5.2. Iter = 840 


  iteration 840; minNextMutationTime = 779; timeNextPopSample = 769; popParams.size() = 2

 We are SAMPLING at time 769



*** Looping through 5.2. Iter = 841 


  iteration 841; minNextMutationTime = 780; timeNextPopSample = 770; popParams.size() = 2

 We are SAMPLING at time 770



*** Looping through 5.2. Iter = 842 


  iteration 842; minNextMutationTime = 781; timeNextPopSample = 771; popParams.size() = 2

 We are SAMPLING at time 771



*** Looping through 5.2. Iter = 843 


  iteration 843; minNextMutationTime = 782; timeNextPopSample = 772; popParams.size() = 2

 We are SAMPLING at time 772



*** Looping through 5.2. Iter = 844 


  iteration 844; minNextMutationTime = 783; timeNextPopSample = 773; popParams.size() = 2

 We are SAMPLING at time 773



*** Looping through 5.2. Iter = 845 


  iteration 845; minNextMutationTime = 784; timeNextPopSample = 774; popParams.size() = 2

 We are SAMPLING at time 774



*** Looping through 5.2. Iter = 846 


  iteration 846; minNextMutationTime = 785; timeNextPopSample = 775; popParams.size() = 2

 We are SAMPLING at time 775



*** Looping through 5.2. Iter = 847 


  iteration 847; minNextMutationTime = 786; timeNextPopSample = 776; popParams.size() = 2

 We are SAMPLING at time 776



*** Looping through 5.2. Iter = 848 


  iteration 848; minNextMutationTime = 787; timeNextPopSample = 777; popParams.size() = 2

 We are SAMPLING at time 777



*** Looping through 5.2. Iter = 849 


  iteration 849; minNextMutationTime = 788; timeNextPopSample = 778; popParams.size() = 2

 We are SAMPLING at time 778



*** Looping through 5.2. Iter = 850 


  iteration 850; minNextMutationTime = 789; timeNextPopSample = 779; popParams.size() = 2

 We are SAMPLING at time 779



*** Looping through 5.2. Iter = 851 


  iteration 851; minNextMutationTime = 779.742; timeNextPopSample = 780; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 852 


  iteration 852; minNextMutationTime = 790; timeNextPopSample = 780; popParams.size() = 3

 We are SAMPLING at time 780



*** Looping through 5.2. Iter = 853 


  iteration 853; minNextMutationTime = 791; timeNextPopSample = 781; popParams.size() = 3

 We are SAMPLING at time 781



*** Looping through 5.2. Iter = 854 


  iteration 854; minNextMutationTime = 792; timeNextPopSample = 782; popParams.size() = 2

 We are SAMPLING at time 782



*** Looping through 5.2. Iter = 855 


  iteration 855; minNextMutationTime = 793; timeNextPopSample = 783; popParams.size() = 2

 We are SAMPLING at time 783



*** Looping through 5.2. Iter = 856 


  iteration 856; minNextMutationTime = 794; timeNextPopSample = 784; popParams.size() = 2

 We are SAMPLING at time 784



*** Looping through 5.2. Iter = 857 


  iteration 857; minNextMutationTime = 795; timeNextPopSample = 785; popParams.size() = 2

 We are SAMPLING at time 785



*** Looping through 5.2. Iter = 858 


  iteration 858; minNextMutationTime = 796; timeNextPopSample = 786; popParams.size() = 2

 We are SAMPLING at time 786



*** Looping through 5.2. Iter = 859 


  iteration 859; minNextMutationTime = 797; timeNextPopSample = 787; popParams.size() = 2

 We are SAMPLING at time 787



*** Looping through 5.2. Iter = 860 


  iteration 860; minNextMutationTime = 787.86; timeNextPopSample = 788; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 861 


  iteration 861; minNextMutationTime = 798; timeNextPopSample = 788; popParams.size() = 3

 We are SAMPLING at time 788



*** Looping through 5.2. Iter = 862 


  iteration 862; minNextMutationTime = 799; timeNextPopSample = 789; popParams.size() = 3

 We are SAMPLING at time 789



*** Looping through 5.2. Iter = 863 


  iteration 863; minNextMutationTime = 800; timeNextPopSample = 790; popParams.size() = 3

 We are SAMPLING at time 790



*** Looping through 5.2. Iter = 864 


  iteration 864; minNextMutationTime = 801; timeNextPopSample = 791; popParams.size() = 3

 We are SAMPLING at time 791



*** Looping through 5.2. Iter = 865 


  iteration 865; minNextMutationTime = 802; timeNextPopSample = 792; popParams.size() = 3

 We are SAMPLING at time 792



*** Looping through 5.2. Iter = 866 


  iteration 866; minNextMutationTime = 803; timeNextPopSample = 793; popParams.size() = 3

 We are SAMPLING at time 793



*** Looping through 5.2. Iter = 867 


  iteration 867; minNextMutationTime = 804; timeNextPopSample = 794; popParams.size() = 3

 We are SAMPLING at time 794



*** Looping through 5.2. Iter = 868 


  iteration 868; minNextMutationTime = 805; timeNextPopSample = 795; popParams.size() = 3

 We are SAMPLING at time 795



*** Looping through 5.2. Iter = 869 


  iteration 869; minNextMutationTime = 806; timeNextPopSample = 796; popParams.size() = 3

 We are SAMPLING at time 796



*** Looping through 5.2. Iter = 870 


  iteration 870; minNextMutationTime = 807; timeNextPopSample = 797; popParams.size() = 3

 We are SAMPLING at time 797



*** Looping through 5.2. Iter = 871 


  iteration 871; minNextMutationTime = 808; timeNextPopSample = 798; popParams.size() = 2

 We are SAMPLING at time 798



*** Looping through 5.2. Iter = 872 


  iteration 872; minNextMutationTime = 809; timeNextPopSample = 799; popParams.size() = 2

 We are SAMPLING at time 799



*** Looping through 5.2. Iter = 873 


  iteration 873; minNextMutationTime = 810; timeNextPopSample = 800; popParams.size() = 1

 We are SAMPLING at time 800



*** Looping through 5.2. Iter = 874 


  iteration 874; minNextMutationTime = 811; timeNextPopSample = 801; popParams.size() = 1

 We are SAMPLING at time 801



*** Looping through 5.2. Iter = 875 


  iteration 875; minNextMutationTime = 801.033; timeNextPopSample = 802; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 876 


  iteration 876; minNextMutationTime = 812; timeNextPopSample = 802; popParams.size() = 2

 We are SAMPLING at time 802



*** Looping through 5.2. Iter = 877 


  iteration 877; minNextMutationTime = 813; timeNextPopSample = 803; popParams.size() = 2

 We are SAMPLING at time 803



*** Looping through 5.2. Iter = 878 


  iteration 878; minNextMutationTime = 814; timeNextPopSample = 804; popParams.size() = 2

 We are SAMPLING at time 804



*** Looping through 5.2. Iter = 879 


  iteration 879; minNextMutationTime = 815; timeNextPopSample = 805; popParams.size() = 1

 We are SAMPLING at time 805



*** Looping through 5.2. Iter = 880 


  iteration 880; minNextMutationTime = 816; timeNextPopSample = 806; popParams.size() = 1

 We are SAMPLING at time 806



*** Looping through 5.2. Iter = 881 


  iteration 881; minNextMutationTime = 817; timeNextPopSample = 807; popParams.size() = 1

 We are SAMPLING at time 807



*** Looping through 5.2. Iter = 882 


  iteration 882; minNextMutationTime = 818; timeNextPopSample = 808; popParams.size() = 1

 We are SAMPLING at time 808



*** Looping through 5.2. Iter = 883 


  iteration 883; minNextMutationTime = 819; timeNextPopSample = 809; popParams.size() = 1

 We are SAMPLING at time 809



*** Looping through 5.2. Iter = 884 


  iteration 884; minNextMutationTime = 820; timeNextPopSample = 810; popParams.size() = 1

 We are SAMPLING at time 810



*** Looping through 5.2. Iter = 885 


  iteration 885; minNextMutationTime = 821; timeNextPopSample = 811; popParams.size() = 1

 We are SAMPLING at time 811



*** Looping through 5.2. Iter = 886 


  iteration 886; minNextMutationTime = 822; timeNextPopSample = 812; popParams.size() = 1

 We are SAMPLING at time 812



*** Looping through 5.2. Iter = 887 


  iteration 887; minNextMutationTime = 823; timeNextPopSample = 813; popParams.size() = 1

 We are SAMPLING at time 813



*** Looping through 5.2. Iter = 888 


  iteration 888; minNextMutationTime = 813.758; timeNextPopSample = 814; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 889 


  iteration 889; minNextMutationTime = 824; timeNextPopSample = 814; popParams.size() = 2

 We are SAMPLING at time 814



*** Looping through 5.2. Iter = 890 


  iteration 890; minNextMutationTime = 825; timeNextPopSample = 815; popParams.size() = 2

 We are SAMPLING at time 815



*** Looping through 5.2. Iter = 891 


  iteration 891; minNextMutationTime = 826; timeNextPopSample = 816; popParams.size() = 2

 We are SAMPLING at time 816



*** Looping through 5.2. Iter = 892 


  iteration 892; minNextMutationTime = 827; timeNextPopSample = 817; popParams.size() = 1

 We are SAMPLING at time 817



*** Looping through 5.2. Iter = 893 


  iteration 893; minNextMutationTime = 828; timeNextPopSample = 818; popParams.size() = 1

 We are SAMPLING at time 818



*** Looping through 5.2. Iter = 894 


  iteration 894; minNextMutationTime = 829; timeNextPopSample = 819; popParams.size() = 1

 We are SAMPLING at time 819



*** Looping through 5.2. Iter = 895 


  iteration 895; minNextMutationTime = 830; timeNextPopSample = 820; popParams.size() = 1

 We are SAMPLING at time 820



*** Looping through 5.2. Iter = 896 


  iteration 896; minNextMutationTime = 831; timeNextPopSample = 821; popParams.size() = 1

 We are SAMPLING at time 821



*** Looping through 5.2. Iter = 897 


  iteration 897; minNextMutationTime = 832; timeNextPopSample = 822; popParams.size() = 1

 We are SAMPLING at time 822



*** Looping through 5.2. Iter = 898 


  iteration 898; minNextMutationTime = 822.31; timeNextPopSample = 823; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 899 


  iteration 899; minNextMutationTime = 833; timeNextPopSample = 823; popParams.size() = 2

 We are SAMPLING at time 823



*** Looping through 5.2. Iter = 900 


  iteration 900; minNextMutationTime = 834; timeNextPopSample = 824; popParams.size() = 2

 We are SAMPLING at time 824



*** Looping through 5.2. Iter = 901 


  iteration 901; minNextMutationTime = 835; timeNextPopSample = 825; popParams.size() = 1

 We are SAMPLING at time 825



*** Looping through 5.2. Iter = 902 


  iteration 902; minNextMutationTime = 836; timeNextPopSample = 826; popParams.size() = 1

 We are SAMPLING at time 826



*** Looping through 5.2. Iter = 903 


  iteration 903; minNextMutationTime = 837; timeNextPopSample = 827; popParams.size() = 1

 We are SAMPLING at time 827



*** Looping through 5.2. Iter = 904 


  iteration 904; minNextMutationTime = 838; timeNextPopSample = 828; popParams.size() = 1

 We are SAMPLING at time 828



*** Looping through 5.2. Iter = 905 


  iteration 905; minNextMutationTime = 839; timeNextPopSample = 829; popParams.size() = 1

 We are SAMPLING at time 829



*** Looping through 5.2. Iter = 906 


  iteration 906; minNextMutationTime = 840; timeNextPopSample = 830; popParams.size() = 1

 We are SAMPLING at time 830



*** Looping through 5.2. Iter = 907 


  iteration 907; minNextMutationTime = 841; timeNextPopSample = 831; popParams.size() = 1

 We are SAMPLING at time 831



*** Looping through 5.2. Iter = 908 


  iteration 908; minNextMutationTime = 842; timeNextPopSample = 832; popParams.size() = 1

 We are SAMPLING at time 832



*** Looping through 5.2. Iter = 909 


  iteration 909; minNextMutationTime = 843; timeNextPopSample = 833; popParams.size() = 1

 We are SAMPLING at time 833



*** Looping through 5.2. Iter = 910 


  iteration 910; minNextMutationTime = 844; timeNextPopSample = 834; popParams.size() = 1

 We are SAMPLING at time 834



*** Looping through 5.2. Iter = 911 


  iteration 911; minNextMutationTime = 834.396; timeNextPopSample = 835; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 912 


  iteration 912; minNextMutationTime = 845; timeNextPopSample = 835; popParams.size() = 2

 We are SAMPLING at time 835



*** Looping through 5.2. Iter = 913 


  iteration 913; minNextMutationTime = 846; timeNextPopSample = 836; popParams.size() = 2

 We are SAMPLING at time 836



*** Looping through 5.2. Iter = 914 


  iteration 914; minNextMutationTime = 847; timeNextPopSample = 837; popParams.size() = 1

 We are SAMPLING at time 837



*** Looping through 5.2. Iter = 915 


  iteration 915; minNextMutationTime = 848; timeNextPopSample = 838; popParams.size() = 1

 We are SAMPLING at time 838



*** Looping through 5.2. Iter = 916 


  iteration 916; minNextMutationTime = 849; timeNextPopSample = 839; popParams.size() = 1

 We are SAMPLING at time 839



*** Looping through 5.2. Iter = 917 


  iteration 917; minNextMutationTime = 850; timeNextPopSample = 840; popParams.size() = 1

 We are SAMPLING at time 840



*** Looping through 5.2. Iter = 918 


  iteration 918; minNextMutationTime = 851; timeNextPopSample = 841; popParams.size() = 1

 We are SAMPLING at time 841



*** Looping through 5.2. Iter = 919 


  iteration 919; minNextMutationTime = 852; timeNextPopSample = 842; popParams.size() = 1

 We are SAMPLING at time 842



*** Looping through 5.2. Iter = 920 


  iteration 920; minNextMutationTime = 853; timeNextPopSample = 843; popParams.size() = 1

 We are SAMPLING at time 843



*** Looping through 5.2. Iter = 921 


  iteration 921; minNextMutationTime = 854; timeNextPopSample = 844; popParams.size() = 1

 We are SAMPLING at time 844



*** Looping through 5.2. Iter = 922 


  iteration 922; minNextMutationTime = 855; timeNextPopSample = 845; popParams.size() = 1

 We are SAMPLING at time 845



*** Looping through 5.2. Iter = 923 


  iteration 923; minNextMutationTime = 856; timeNextPopSample = 846; popParams.size() = 1

 We are SAMPLING at time 846



*** Looping through 5.2. Iter = 924 


  iteration 924; minNextMutationTime = 857; timeNextPopSample = 847; popParams.size() = 1

 We are SAMPLING at time 847



*** Looping through 5.2. Iter = 925 


  iteration 925; minNextMutationTime = 858; timeNextPopSample = 848; popParams.size() = 1

 We are SAMPLING at time 848



*** Looping through 5.2. Iter = 926 


  iteration 926; minNextMutationTime = 859; timeNextPopSample = 849; popParams.size() = 1

 We are SAMPLING at time 849



*** Looping through 5.2. Iter = 927 


  iteration 927; minNextMutationTime = 860; timeNextPopSample = 850; popParams.size() = 1

 We are SAMPLING at time 850



*** Looping through 5.2. Iter = 928 


  iteration 928; minNextMutationTime = 861; timeNextPopSample = 851; popParams.size() = 1

 We are SAMPLING at time 851



*** Looping through 5.2. Iter = 929 


  iteration 929; minNextMutationTime = 862; timeNextPopSample = 852; popParams.size() = 1

 We are SAMPLING at time 852



*** Looping through 5.2. Iter = 930 


  iteration 930; minNextMutationTime = 863; timeNextPopSample = 853; popParams.size() = 1

 We are SAMPLING at time 853



*** Looping through 5.2. Iter = 931 


  iteration 931; minNextMutationTime = 864; timeNextPopSample = 854; popParams.size() = 1

 We are SAMPLING at time 854



*** Looping through 5.2. Iter = 932 


  iteration 932; minNextMutationTime = 865; timeNextPopSample = 855; popParams.size() = 1

 We are SAMPLING at time 855



*** Looping through 5.2. Iter = 933 


  iteration 933; minNextMutationTime = 866; timeNextPopSample = 856; popParams.size() = 1

 We are SAMPLING at time 856



*** Looping through 5.2. Iter = 934 


  iteration 934; minNextMutationTime = 867; timeNextPopSample = 857; popParams.size() = 1

 We are SAMPLING at time 857



*** Looping through 5.2. Iter = 935 


  iteration 935; minNextMutationTime = 868; timeNextPopSample = 858; popParams.size() = 1

 We are SAMPLING at time 858



*** Looping through 5.2. Iter = 936 


  iteration 936; minNextMutationTime = 869; timeNextPopSample = 859; popParams.size() = 1

 We are SAMPLING at time 859



*** Looping through 5.2. Iter = 937 


  iteration 937; minNextMutationTime = 870; timeNextPopSample = 860; popParams.size() = 1

 We are SAMPLING at time 860



*** Looping through 5.2. Iter = 938 


  iteration 938; minNextMutationTime = 871; timeNextPopSample = 861; popParams.size() = 1

 We are SAMPLING at time 861



*** Looping through 5.2. Iter = 939 


  iteration 939; minNextMutationTime = 861.086; timeNextPopSample = 862; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 940 


  iteration 940; minNextMutationTime = 872; timeNextPopSample = 862; popParams.size() = 2

 We are SAMPLING at time 862



*** Looping through 5.2. Iter = 941 


  iteration 941; minNextMutationTime = 873; timeNextPopSample = 863; popParams.size() = 2

 We are SAMPLING at time 863



*** Looping through 5.2. Iter = 942 


  iteration 942; minNextMutationTime = 874; timeNextPopSample = 864; popParams.size() = 1

 We are SAMPLING at time 864



*** Looping through 5.2. Iter = 943 


  iteration 943; minNextMutationTime = 875; timeNextPopSample = 865; popParams.size() = 1

 We are SAMPLING at time 865



*** Looping through 5.2. Iter = 944 


  iteration 944; minNextMutationTime = 876; timeNextPopSample = 866; popParams.size() = 1

 We are SAMPLING at time 866



*** Looping through 5.2. Iter = 945 


  iteration 945; minNextMutationTime = 877; timeNextPopSample = 867; popParams.size() = 1

 We are SAMPLING at time 867



*** Looping through 5.2. Iter = 946 


  iteration 946; minNextMutationTime = 867.905; timeNextPopSample = 868; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 947 


  iteration 947; minNextMutationTime = 878; timeNextPopSample = 868; popParams.size() = 2

 We are SAMPLING at time 868



*** Looping through 5.2. Iter = 948 


  iteration 948; minNextMutationTime = 879; timeNextPopSample = 869; popParams.size() = 2

 We are SAMPLING at time 869



*** Looping through 5.2. Iter = 949 


  iteration 949; minNextMutationTime = 869.039; timeNextPopSample = 870; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 950 


  iteration 950; minNextMutationTime = 869.861; timeNextPopSample = 870; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 951 


  iteration 951; minNextMutationTime = 880; timeNextPopSample = 870; popParams.size() = 3

 We are SAMPLING at time 870



*** Looping through 5.2. Iter = 952 


  iteration 952; minNextMutationTime = 881; timeNextPopSample = 871; popParams.size() = 3

 We are SAMPLING at time 871



*** Looping through 5.2. Iter = 953 


  iteration 953; minNextMutationTime = 882; timeNextPopSample = 872; popParams.size() = 3

 We are SAMPLING at time 872



*** Looping through 5.2. Iter = 954 


  iteration 954; minNextMutationTime = 883; timeNextPopSample = 873; popParams.size() = 3

 We are SAMPLING at time 873



*** Looping through 5.2. Iter = 955 


  iteration 955; minNextMutationTime = 873.131; timeNextPopSample = 874; popParams.size() = 3

     Mutated to existing species 1 (Genotype = 0000000000000000000000000000000000000000000000000000000000000010; sp_id = 2)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 2)
 New popSize = 10



*** Looping through 5.2. Iter = 956 


  iteration 956; minNextMutationTime = 884; timeNextPopSample = 874; popParams.size() = 3

 We are SAMPLING at time 874



*** Looping through 5.2. Iter = 957 


  iteration 957; minNextMutationTime = 885; timeNextPopSample = 875; popParams.size() = 3

 We are SAMPLING at time 875



*** Looping through 5.2. Iter = 958 


  iteration 958; minNextMutationTime = 886; timeNextPopSample = 876; popParams.size() = 3

 We are SAMPLING at time 876



*** Looping through 5.2. Iter = 959 


  iteration 959; minNextMutationTime = 887; timeNextPopSample = 877; popParams.size() = 2

 We are SAMPLING at time 877



*** Looping through 5.2. Iter = 960 


  iteration 960; minNextMutationTime = 888; timeNextPopSample = 878; popParams.size() = 2

 We are SAMPLING at time 878



*** Looping through 5.2. Iter = 961 


  iteration 961; minNextMutationTime = 889; timeNextPopSample = 879; popParams.size() = 2

 We are SAMPLING at time 879



*** Looping through 5.2. Iter = 962 


  iteration 962; minNextMutationTime = 890; timeNextPopSample = 880; popParams.size() = 2

 We are SAMPLING at time 880



*** Looping through 5.2. Iter = 963 


  iteration 963; minNextMutationTime = 891; timeNextPopSample = 881; popParams.size() = 2

 We are SAMPLING at time 881



*** Looping through 5.2. Iter = 964 


  iteration 964; minNextMutationTime = 892; timeNextPopSample = 882; popParams.size() = 2

 We are SAMPLING at time 882



*** Looping through 5.2. Iter = 965 


  iteration 965; minNextMutationTime = 893; timeNextPopSample = 883; popParams.size() = 2

 We are SAMPLING at time 883



*** Looping through 5.2. Iter = 966 


  iteration 966; minNextMutationTime = 894; timeNextPopSample = 884; popParams.size() = 2

 We are SAMPLING at time 884



*** Looping through 5.2. Iter = 967 


  iteration 967; minNextMutationTime = 895; timeNextPopSample = 885; popParams.size() = 1

 We are SAMPLING at time 885



*** Looping through 5.2. Iter = 968 


  iteration 968; minNextMutationTime = 896; timeNextPopSample = 886; popParams.size() = 1

 We are SAMPLING at time 886



*** Looping through 5.2. Iter = 969 


  iteration 969; minNextMutationTime = 886.704; timeNextPopSample = 887; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 970 


  iteration 970; minNextMutationTime = 897; timeNextPopSample = 887; popParams.size() = 2

 We are SAMPLING at time 887



*** Looping through 5.2. Iter = 971 


  iteration 971; minNextMutationTime = 898; timeNextPopSample = 888; popParams.size() = 2

 We are SAMPLING at time 888



*** Looping through 5.2. Iter = 972 


  iteration 972; minNextMutationTime = 899; timeNextPopSample = 889; popParams.size() = 2

 We are SAMPLING at time 889



*** Looping through 5.2. Iter = 973 


  iteration 973; minNextMutationTime = 900; timeNextPopSample = 890; popParams.size() = 2

 We are SAMPLING at time 890



*** Looping through 5.2. Iter = 974 


  iteration 974; minNextMutationTime = 901; timeNextPopSample = 891; popParams.size() = 2

 We are SAMPLING at time 891



*** Looping through 5.2. Iter = 975 


  iteration 975; minNextMutationTime = 902; timeNextPopSample = 892; popParams.size() = 1

 We are SAMPLING at time 892



*** Looping through 5.2. Iter = 976 


  iteration 976; minNextMutationTime = 903; timeNextPopSample = 893; popParams.size() = 1

 We are SAMPLING at time 893



*** Looping through 5.2. Iter = 977 


  iteration 977; minNextMutationTime = 893.289; timeNextPopSample = 894; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 978 


  iteration 978; minNextMutationTime = 904; timeNextPopSample = 894; popParams.size() = 2

 We are SAMPLING at time 894



*** Looping through 5.2. Iter = 979 


  iteration 979; minNextMutationTime = 905; timeNextPopSample = 895; popParams.size() = 2

 We are SAMPLING at time 895



*** Looping through 5.2. Iter = 980 


  iteration 980; minNextMutationTime = 906; timeNextPopSample = 896; popParams.size() = 1

 We are SAMPLING at time 896



*** Looping through 5.2. Iter = 981 


  iteration 981; minNextMutationTime = 907; timeNextPopSample = 897; popParams.size() = 1

 We are SAMPLING at time 897



*** Looping through 5.2. Iter = 982 


  iteration 982; minNextMutationTime = 908; timeNextPopSample = 898; popParams.size() = 1

 We are SAMPLING at time 898



*** Looping through 5.2. Iter = 983 


  iteration 983; minNextMutationTime = 909; timeNextPopSample = 899; popParams.size() = 1

 We are SAMPLING at time 899



*** Looping through 5.2. Iter = 984 


  iteration 984; minNextMutationTime = 899.022; timeNextPopSample = 900; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 985 


  iteration 985; minNextMutationTime = 910; timeNextPopSample = 900; popParams.size() = 2

 We are SAMPLING at time 900



*** Looping through 5.2. Iter = 986 


  iteration 986; minNextMutationTime = 911; timeNextPopSample = 901; popParams.size() = 2

 We are SAMPLING at time 901



*** Looping through 5.2. Iter = 987 


  iteration 987; minNextMutationTime = 912; timeNextPopSample = 902; popParams.size() = 2

 We are SAMPLING at time 902



*** Looping through 5.2. Iter = 988 


  iteration 988; minNextMutationTime = 913; timeNextPopSample = 903; popParams.size() = 2

 We are SAMPLING at time 903



*** Looping through 5.2. Iter = 989 


  iteration 989; minNextMutationTime = 914; timeNextPopSample = 904; popParams.size() = 2

 We are SAMPLING at time 904



*** Looping through 5.2. Iter = 990 


  iteration 990; minNextMutationTime = 904.131; timeNextPopSample = 905; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 991 


  iteration 991; minNextMutationTime = 915; timeNextPopSample = 905; popParams.size() = 3

 We are SAMPLING at time 905



*** Looping through 5.2. Iter = 992 


  iteration 992; minNextMutationTime = 905.884; timeNextPopSample = 906; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 993 


  iteration 993; minNextMutationTime = 916; timeNextPopSample = 906; popParams.size() = 3

 We are SAMPLING at time 906



*** Looping through 5.2. Iter = 994 


  iteration 994; minNextMutationTime = 906.893; timeNextPopSample = 907; popParams.size() = 3

     Creating new species   3         from species 0


*** Looping through 5.2. Iter = 995 


  iteration 995; minNextMutationTime = 917; timeNextPopSample = 907; popParams.size() = 4

 We are SAMPLING at time 907



*** Looping through 5.2. Iter = 996 


  iteration 996; minNextMutationTime = 918; timeNextPopSample = 908; popParams.size() = 3

 We are SAMPLING at time 908



*** Looping through 5.2. Iter = 997 


  iteration 997; minNextMutationTime = 919; timeNextPopSample = 909; popParams.size() = 2

 We are SAMPLING at time 909



*** Looping through 5.2. Iter = 998 


  iteration 998; minNextMutationTime = 920; timeNextPopSample = 910; popParams.size() = 2

 We are SAMPLING at time 910



*** Looping through 5.2. Iter = 999 


  iteration 999; minNextMutationTime = 921; timeNextPopSample = 911; popParams.size() = 2

 We are SAMPLING at time 911


    ... iteration 1000
    ... currentTime 911



*** Looping through 5.2. Iter = 1000 


  iteration 1000; minNextMutationTime = 911.969; timeNextPopSample = 912; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1001 


  iteration 1001; minNextMutationTime = 922; timeNextPopSample = 912; popParams.size() = 3

 We are SAMPLING at time 912



*** Looping through 5.2. Iter = 1002 


  iteration 1002; minNextMutationTime = 923; timeNextPopSample = 913; popParams.size() = 3

 We are SAMPLING at time 913



*** Looping through 5.2. Iter = 1003 


  iteration 1003; minNextMutationTime = 924; timeNextPopSample = 914; popParams.size() = 2

 We are SAMPLING at time 914



*** Looping through 5.2. Iter = 1004 


  iteration 1004; minNextMutationTime = 925; timeNextPopSample = 915; popParams.size() = 2

 We are SAMPLING at time 915



*** Looping through 5.2. Iter = 1005 


  iteration 1005; minNextMutationTime = 926; timeNextPopSample = 916; popParams.size() = 2

 We are SAMPLING at time 916



*** Looping through 5.2. Iter = 1006 


  iteration 1006; minNextMutationTime = 927; timeNextPopSample = 917; popParams.size() = 2

 We are SAMPLING at time 917



*** Looping through 5.2. Iter = 1007 


  iteration 1007; minNextMutationTime = 928; timeNextPopSample = 918; popParams.size() = 2

 We are SAMPLING at time 918



*** Looping through 5.2. Iter = 1008 


  iteration 1008; minNextMutationTime = 929; timeNextPopSample = 919; popParams.size() = 2

 We are SAMPLING at time 919



*** Looping through 5.2. Iter = 1009 


  iteration 1009; minNextMutationTime = 930; timeNextPopSample = 920; popParams.size() = 2

 We are SAMPLING at time 920



*** Looping through 5.2. Iter = 1010 


  iteration 1010; minNextMutationTime = 931; timeNextPopSample = 921; popParams.size() = 2

 We are SAMPLING at time 921



*** Looping through 5.2. Iter = 1011 


  iteration 1011; minNextMutationTime = 921.067; timeNextPopSample = 922; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1012 


  iteration 1012; minNextMutationTime = 932; timeNextPopSample = 922; popParams.size() = 3

 We are SAMPLING at time 922



*** Looping through 5.2. Iter = 1013 


  iteration 1013; minNextMutationTime = 933; timeNextPopSample = 923; popParams.size() = 3

 We are SAMPLING at time 923



*** Looping through 5.2. Iter = 1014 


  iteration 1014; minNextMutationTime = 934; timeNextPopSample = 924; popParams.size() = 3

 We are SAMPLING at time 924



*** Looping through 5.2. Iter = 1015 


  iteration 1015; minNextMutationTime = 935; timeNextPopSample = 925; popParams.size() = 2

 We are SAMPLING at time 925



*** Looping through 5.2. Iter = 1016 


  iteration 1016; minNextMutationTime = 925.089; timeNextPopSample = 926; popParams.size() = 2

     Mutated to existing species 1 (Genotype = 0000000000000000000000000000000000000000000000000000000000001000; sp_id = 8)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 8)
 New popSize = 21



*** Looping through 5.2. Iter = 1017 


  iteration 1017; minNextMutationTime = 936; timeNextPopSample = 926; popParams.size() = 2

 We are SAMPLING at time 926



*** Looping through 5.2. Iter = 1018 


  iteration 1018; minNextMutationTime = 937; timeNextPopSample = 927; popParams.size() = 2

 We are SAMPLING at time 927



*** Looping through 5.2. Iter = 1019 


  iteration 1019; minNextMutationTime = 938; timeNextPopSample = 928; popParams.size() = 2

 We are SAMPLING at time 928



*** Looping through 5.2. Iter = 1020 


  iteration 1020; minNextMutationTime = 939; timeNextPopSample = 929; popParams.size() = 2

 We are SAMPLING at time 929



*** Looping through 5.2. Iter = 1021 


  iteration 1021; minNextMutationTime = 940; timeNextPopSample = 930; popParams.size() = 2

 We are SAMPLING at time 930



*** Looping through 5.2. Iter = 1022 


  iteration 1022; minNextMutationTime = 941; timeNextPopSample = 931; popParams.size() = 2

 We are SAMPLING at time 931



*** Looping through 5.2. Iter = 1023 


  iteration 1023; minNextMutationTime = 942; timeNextPopSample = 932; popParams.size() = 2

 We are SAMPLING at time 932



*** Looping through 5.2. Iter = 1024 


  iteration 1024; minNextMutationTime = 943; timeNextPopSample = 933; popParams.size() = 2

 We are SAMPLING at time 933



*** Looping through 5.2. Iter = 1025 


  iteration 1025; minNextMutationTime = 933.896; timeNextPopSample = 934; popParams.size() = 2

     Mutated to existing species 1 (Genotype = 0000000000000000000000000000000000000000000000000000000000001000; sp_id = 8)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 8)
 New popSize = 80



*** Looping through 5.2. Iter = 1026 


  iteration 1026; minNextMutationTime = 944; timeNextPopSample = 934; popParams.size() = 2

 We are SAMPLING at time 934



*** Looping through 5.2. Iter = 1027 


  iteration 1027; minNextMutationTime = 945; timeNextPopSample = 935; popParams.size() = 2

 We are SAMPLING at time 935



*** Looping through 5.2. Iter = 1028 


  iteration 1028; minNextMutationTime = 946; timeNextPopSample = 936; popParams.size() = 2

 We are SAMPLING at time 936



*** Looping through 5.2. Iter = 1029 


  iteration 1029; minNextMutationTime = 947; timeNextPopSample = 937; popParams.size() = 2

 We are SAMPLING at time 937



*** Looping through 5.2. Iter = 1030 


  iteration 1030; minNextMutationTime = 948; timeNextPopSample = 938; popParams.size() = 2

 We are SAMPLING at time 938



*** Looping through 5.2. Iter = 1031 


  iteration 1031; minNextMutationTime = 949; timeNextPopSample = 939; popParams.size() = 2

 We are SAMPLING at time 939



*** Looping through 5.2. Iter = 1032 


  iteration 1032; minNextMutationTime = 950; timeNextPopSample = 940; popParams.size() = 2

 We are SAMPLING at time 940



*** Looping through 5.2. Iter = 1033 


  iteration 1033; minNextMutationTime = 951; timeNextPopSample = 941; popParams.size() = 2

 We are SAMPLING at time 941



*** Looping through 5.2. Iter = 1034 


  iteration 1034; minNextMutationTime = 952; timeNextPopSample = 942; popParams.size() = 2

 We are SAMPLING at time 942



*** Looping through 5.2. Iter = 1035 


  iteration 1035; minNextMutationTime = 953; timeNextPopSample = 943; popParams.size() = 2

 We are SAMPLING at time 943



*** Looping through 5.2. Iter = 1036 


  iteration 1036; minNextMutationTime = 954; timeNextPopSample = 944; popParams.size() = 2

 We are SAMPLING at time 944



*** Looping through 5.2. Iter = 1037 


  iteration 1037; minNextMutationTime = 955; timeNextPopSample = 945; popParams.size() = 2

 We are SAMPLING at time 945



*** Looping through 5.2. Iter = 1038 


  iteration 1038; minNextMutationTime = 956; timeNextPopSample = 946; popParams.size() = 2

 We are SAMPLING at time 946



*** Looping through 5.2. Iter = 1039 


  iteration 1039; minNextMutationTime = 957; timeNextPopSample = 947; popParams.size() = 2

 We are SAMPLING at time 947



*** Looping through 5.2. Iter = 1040 


  iteration 1040; minNextMutationTime = 958; timeNextPopSample = 948; popParams.size() = 2

 We are SAMPLING at time 948



*** Looping through 5.2. Iter = 1041 


  iteration 1041; minNextMutationTime = 959; timeNextPopSample = 949; popParams.size() = 2

 We are SAMPLING at time 949



*** Looping through 5.2. Iter = 1042 


  iteration 1042; minNextMutationTime = 960; timeNextPopSample = 950; popParams.size() = 2

 We are SAMPLING at time 950



*** Looping through 5.2. Iter = 1043 


  iteration 1043; minNextMutationTime = 961; timeNextPopSample = 951; popParams.size() = 2

 We are SAMPLING at time 951



*** Looping through 5.2. Iter = 1044 


  iteration 1044; minNextMutationTime = 962; timeNextPopSample = 952; popParams.size() = 2

 We are SAMPLING at time 952



*** Looping through 5.2. Iter = 1045 


  iteration 1045; minNextMutationTime = 952.302; timeNextPopSample = 953; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1046 


  iteration 1046; minNextMutationTime = 963; timeNextPopSample = 953; popParams.size() = 3

 We are SAMPLING at time 953



*** Looping through 5.2. Iter = 1047 


  iteration 1047; minNextMutationTime = 964; timeNextPopSample = 954; popParams.size() = 3

 We are SAMPLING at time 954



*** Looping through 5.2. Iter = 1048 


  iteration 1048; minNextMutationTime = 965; timeNextPopSample = 955; popParams.size() = 3

 We are SAMPLING at time 955



*** Looping through 5.2. Iter = 1049 


  iteration 1049; minNextMutationTime = 966; timeNextPopSample = 956; popParams.size() = 3

 We are SAMPLING at time 956



*** Looping through 5.2. Iter = 1050 


  iteration 1050; minNextMutationTime = 967; timeNextPopSample = 957; popParams.size() = 3

 We are SAMPLING at time 957



*** Looping through 5.2. Iter = 1051 


  iteration 1051; minNextMutationTime = 968; timeNextPopSample = 958; popParams.size() = 2

 We are SAMPLING at time 958



*** Looping through 5.2. Iter = 1052 


  iteration 1052; minNextMutationTime = 969; timeNextPopSample = 959; popParams.size() = 2

 We are SAMPLING at time 959



*** Looping through 5.2. Iter = 1053 


  iteration 1053; minNextMutationTime = 970; timeNextPopSample = 960; popParams.size() = 2

 We are SAMPLING at time 960



*** Looping through 5.2. Iter = 1054 


  iteration 1054; minNextMutationTime = 971; timeNextPopSample = 961; popParams.size() = 2

 We are SAMPLING at time 961



*** Looping through 5.2. Iter = 1055 


  iteration 1055; minNextMutationTime = 972; timeNextPopSample = 962; popParams.size() = 2

 We are SAMPLING at time 962



*** Looping through 5.2. Iter = 1056 


  iteration 1056; minNextMutationTime = 973; timeNextPopSample = 963; popParams.size() = 2

 We are SAMPLING at time 963



*** Looping through 5.2. Iter = 1057 


  iteration 1057; minNextMutationTime = 974; timeNextPopSample = 964; popParams.size() = 2

 We are SAMPLING at time 964



*** Looping through 5.2. Iter = 1058 


  iteration 1058; minNextMutationTime = 975; timeNextPopSample = 965; popParams.size() = 2

 We are SAMPLING at time 965



*** Looping through 5.2. Iter = 1059 


  iteration 1059; minNextMutationTime = 976; timeNextPopSample = 966; popParams.size() = 2

 We are SAMPLING at time 966



*** Looping through 5.2. Iter = 1060 


  iteration 1060; minNextMutationTime = 977; timeNextPopSample = 967; popParams.size() = 2

 We are SAMPLING at time 967



*** Looping through 5.2. Iter = 1061 


  iteration 1061; minNextMutationTime = 978; timeNextPopSample = 968; popParams.size() = 2

 We are SAMPLING at time 968



*** Looping through 5.2. Iter = 1062 


  iteration 1062; minNextMutationTime = 979; timeNextPopSample = 969; popParams.size() = 2

 We are SAMPLING at time 969



*** Looping through 5.2. Iter = 1063 


  iteration 1063; minNextMutationTime = 980; timeNextPopSample = 970; popParams.size() = 2

 We are SAMPLING at time 970



*** Looping through 5.2. Iter = 1064 


  iteration 1064; minNextMutationTime = 981; timeNextPopSample = 971; popParams.size() = 2

 We are SAMPLING at time 971



*** Looping through 5.2. Iter = 1065 


  iteration 1065; minNextMutationTime = 982; timeNextPopSample = 972; popParams.size() = 2

 We are SAMPLING at time 972



*** Looping through 5.2. Iter = 1066 


  iteration 1066; minNextMutationTime = 983; timeNextPopSample = 973; popParams.size() = 2

 We are SAMPLING at time 973



*** Looping through 5.2. Iter = 1067 


  iteration 1067; minNextMutationTime = 984; timeNextPopSample = 974; popParams.size() = 2

 We are SAMPLING at time 974



*** Looping through 5.2. Iter = 1068 


  iteration 1068; minNextMutationTime = 985; timeNextPopSample = 975; popParams.size() = 2

 We are SAMPLING at time 975



*** Looping through 5.2. Iter = 1069 


  iteration 1069; minNextMutationTime = 975.024; timeNextPopSample = 976; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1070 


  iteration 1070; minNextMutationTime = 986; timeNextPopSample = 976; popParams.size() = 3

 We are SAMPLING at time 976



*** Looping through 5.2. Iter = 1071 


  iteration 1071; minNextMutationTime = 987; timeNextPopSample = 977; popParams.size() = 2

 We are SAMPLING at time 977



*** Looping through 5.2. Iter = 1072 


  iteration 1072; minNextMutationTime = 988; timeNextPopSample = 978; popParams.size() = 2

 We are SAMPLING at time 978



*** Looping through 5.2. Iter = 1073 


  iteration 1073; minNextMutationTime = 989; timeNextPopSample = 979; popParams.size() = 2

 We are SAMPLING at time 979



*** Looping through 5.2. Iter = 1074 


  iteration 1074; minNextMutationTime = 990; timeNextPopSample = 980; popParams.size() = 2

 We are SAMPLING at time 980



*** Looping through 5.2. Iter = 1075 


  iteration 1075; minNextMutationTime = 991; timeNextPopSample = 981; popParams.size() = 2

 We are SAMPLING at time 981



*** Looping through 5.2. Iter = 1076 


  iteration 1076; minNextMutationTime = 992; timeNextPopSample = 982; popParams.size() = 2

 We are SAMPLING at time 982



*** Looping through 5.2. Iter = 1077 


  iteration 1077; minNextMutationTime = 993; timeNextPopSample = 983; popParams.size() = 2

 We are SAMPLING at time 983



*** Looping through 5.2. Iter = 1078 


  iteration 1078; minNextMutationTime = 994; timeNextPopSample = 984; popParams.size() = 1

 We are SAMPLING at time 984



*** Looping through 5.2. Iter = 1079 


  iteration 1079; minNextMutationTime = 984.996; timeNextPopSample = 985; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1080 


  iteration 1080; minNextMutationTime = 995; timeNextPopSample = 985; popParams.size() = 2

 We are SAMPLING at time 985



*** Looping through 5.2. Iter = 1081 


  iteration 1081; minNextMutationTime = 996; timeNextPopSample = 986; popParams.size() = 2

 We are SAMPLING at time 986



*** Looping through 5.2. Iter = 1082 


  iteration 1082; minNextMutationTime = 997; timeNextPopSample = 987; popParams.size() = 2

 We are SAMPLING at time 987



*** Looping through 5.2. Iter = 1083 


  iteration 1083; minNextMutationTime = 998; timeNextPopSample = 988; popParams.size() = 2

 We are SAMPLING at time 988



*** Looping through 5.2. Iter = 1084 


  iteration 1084; minNextMutationTime = 999; timeNextPopSample = 989; popParams.size() = 2

 We are SAMPLING at time 989



*** Looping through 5.2. Iter = 1085 


  iteration 1085; minNextMutationTime = 1000; timeNextPopSample = 990; popParams.size() = 1

 We are SAMPLING at time 990



*** Looping through 5.2. Iter = 1086 


  iteration 1086; minNextMutationTime = 1001; timeNextPopSample = 991; popParams.size() = 1

 We are SAMPLING at time 991



*** Looping through 5.2. Iter = 1087 


  iteration 1087; minNextMutationTime = 1002; timeNextPopSample = 992; popParams.size() = 1

 We are SAMPLING at time 992



*** Looping through 5.2. Iter = 1088 


  iteration 1088; minNextMutationTime = 1003; timeNextPopSample = 993; popParams.size() = 1

 We are SAMPLING at time 993



*** Looping through 5.2. Iter = 1089 


  iteration 1089; minNextMutationTime = 1004; timeNextPopSample = 994; popParams.size() = 1

 We are SAMPLING at time 994



*** Looping through 5.2. Iter = 1090 


  iteration 1090; minNextMutationTime = 1005; timeNextPopSample = 995; popParams.size() = 1

 We are SAMPLING at time 995



*** Looping through 5.2. Iter = 1091 


  iteration 1091; minNextMutationTime = 1006; timeNextPopSample = 996; popParams.size() = 1

 We are SAMPLING at time 996



*** Looping through 5.2. Iter = 1092 


  iteration 1092; minNextMutationTime = 1007; timeNextPopSample = 997; popParams.size() = 1

 We are SAMPLING at time 997



*** Looping through 5.2. Iter = 1093 


  iteration 1093; minNextMutationTime = 1008; timeNextPopSample = 998; popParams.size() = 1

 We are SAMPLING at time 998



*** Looping through 5.2. Iter = 1094 


  iteration 1094; minNextMutationTime = 1009; timeNextPopSample = 999; popParams.size() = 1

 We are SAMPLING at time 999



*** Looping through 5.2. Iter = 1095 


  iteration 1095; minNextMutationTime = 1010; timeNextPopSample = 1000; popParams.size() = 1

 We are SAMPLING at time 1000



*** Looping through 5.2. Iter = 1096 


  iteration 1096; minNextMutationTime = 1011; timeNextPopSample = 1001; popParams.size() = 1

 We are SAMPLING at time 1001



*** Looping through 5.2. Iter = 1097 


  iteration 1097; minNextMutationTime = 1012; timeNextPopSample = 1002; popParams.size() = 1

 We are SAMPLING at time 1002



*** Looping through 5.2. Iter = 1098 


  iteration 1098; minNextMutationTime = 1013; timeNextPopSample = 1003; popParams.size() = 1

 We are SAMPLING at time 1003



*** Looping through 5.2. Iter = 1099 


  iteration 1099; minNextMutationTime = 1014; timeNextPopSample = 1004; popParams.size() = 1

 We are SAMPLING at time 1004



*** Looping through 5.2. Iter = 1100 


  iteration 1100; minNextMutationTime = 1015; timeNextPopSample = 1005; popParams.size() = 1

 We are SAMPLING at time 1005



*** Looping through 5.2. Iter = 1101 


  iteration 1101; minNextMutationTime = 1016; timeNextPopSample = 1006; popParams.size() = 1

 We are SAMPLING at time 1006



*** Looping through 5.2. Iter = 1102 


  iteration 1102; minNextMutationTime = 1017; timeNextPopSample = 1007; popParams.size() = 1

 We are SAMPLING at time 1007



*** Looping through 5.2. Iter = 1103 


  iteration 1103; minNextMutationTime = 1018; timeNextPopSample = 1008; popParams.size() = 1

 We are SAMPLING at time 1008



*** Looping through 5.2. Iter = 1104 


  iteration 1104; minNextMutationTime = 1019; timeNextPopSample = 1009; popParams.size() = 1

 We are SAMPLING at time 1009



*** Looping through 5.2. Iter = 1105 


  iteration 1105; minNextMutationTime = 1009.43; timeNextPopSample = 1010; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1106 


  iteration 1106; minNextMutationTime = 1020; timeNextPopSample = 1010; popParams.size() = 2

 We are SAMPLING at time 1010



*** Looping through 5.2. Iter = 1107 


  iteration 1107; minNextMutationTime = 1021; timeNextPopSample = 1011; popParams.size() = 1

 We are SAMPLING at time 1011



*** Looping through 5.2. Iter = 1108 


  iteration 1108; minNextMutationTime = 1022; timeNextPopSample = 1012; popParams.size() = 1

 We are SAMPLING at time 1012



*** Looping through 5.2. Iter = 1109 


  iteration 1109; minNextMutationTime = 1023; timeNextPopSample = 1013; popParams.size() = 1

 We are SAMPLING at time 1013



*** Looping through 5.2. Iter = 1110 


  iteration 1110; minNextMutationTime = 1024; timeNextPopSample = 1014; popParams.size() = 1

 We are SAMPLING at time 1014



*** Looping through 5.2. Iter = 1111 


  iteration 1111; minNextMutationTime = 1025; timeNextPopSample = 1015; popParams.size() = 1

 We are SAMPLING at time 1015



*** Looping through 5.2. Iter = 1112 


  iteration 1112; minNextMutationTime = 1015.35; timeNextPopSample = 1016; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1113 


  iteration 1113; minNextMutationTime = 1026; timeNextPopSample = 1016; popParams.size() = 2

 We are SAMPLING at time 1016



*** Looping through 5.2. Iter = 1114 


  iteration 1114; minNextMutationTime = 1027; timeNextPopSample = 1017; popParams.size() = 2

 We are SAMPLING at time 1017



*** Looping through 5.2. Iter = 1115 


  iteration 1115; minNextMutationTime = 1017.79; timeNextPopSample = 1018; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1116 


  iteration 1116; minNextMutationTime = 1028; timeNextPopSample = 1018; popParams.size() = 3

 We are SAMPLING at time 1018



*** Looping through 5.2. Iter = 1117 


  iteration 1117; minNextMutationTime = 1029; timeNextPopSample = 1019; popParams.size() = 2

 We are SAMPLING at time 1019



*** Looping through 5.2. Iter = 1118 


  iteration 1118; minNextMutationTime = 1030; timeNextPopSample = 1020; popParams.size() = 2

 We are SAMPLING at time 1020



*** Looping through 5.2. Iter = 1119 


  iteration 1119; minNextMutationTime = 1031; timeNextPopSample = 1021; popParams.size() = 2

 We are SAMPLING at time 1021



*** Looping through 5.2. Iter = 1120 


  iteration 1120; minNextMutationTime = 1032; timeNextPopSample = 1022; popParams.size() = 2

 We are SAMPLING at time 1022



*** Looping through 5.2. Iter = 1121 


  iteration 1121; minNextMutationTime = 1033; timeNextPopSample = 1023; popParams.size() = 2

 We are SAMPLING at time 1023



*** Looping through 5.2. Iter = 1122 


  iteration 1122; minNextMutationTime = 1034; timeNextPopSample = 1024; popParams.size() = 2

 We are SAMPLING at time 1024



*** Looping through 5.2. Iter = 1123 


  iteration 1123; minNextMutationTime = 1024.79; timeNextPopSample = 1025; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1124 


  iteration 1124; minNextMutationTime = 1035; timeNextPopSample = 1025; popParams.size() = 3

 We are SAMPLING at time 1025



*** Looping through 5.2. Iter = 1125 


  iteration 1125; minNextMutationTime = 1036; timeNextPopSample = 1026; popParams.size() = 3

 We are SAMPLING at time 1026



*** Looping through 5.2. Iter = 1126 


  iteration 1126; minNextMutationTime = 1037; timeNextPopSample = 1027; popParams.size() = 3

 We are SAMPLING at time 1027



*** Looping through 5.2. Iter = 1127 


  iteration 1127; minNextMutationTime = 1038; timeNextPopSample = 1028; popParams.size() = 2

 We are SAMPLING at time 1028



*** Looping through 5.2. Iter = 1128 


  iteration 1128; minNextMutationTime = 1039; timeNextPopSample = 1029; popParams.size() = 2

 We are SAMPLING at time 1029



*** Looping through 5.2. Iter = 1129 


  iteration 1129; minNextMutationTime = 1040; timeNextPopSample = 1030; popParams.size() = 2

 We are SAMPLING at time 1030



*** Looping through 5.2. Iter = 1130 


  iteration 1130; minNextMutationTime = 1041; timeNextPopSample = 1031; popParams.size() = 2

 We are SAMPLING at time 1031



*** Looping through 5.2. Iter = 1131 


  iteration 1131; minNextMutationTime = 1042; timeNextPopSample = 1032; popParams.size() = 2

 We are SAMPLING at time 1032



*** Looping through 5.2. Iter = 1132 


  iteration 1132; minNextMutationTime = 1043; timeNextPopSample = 1033; popParams.size() = 2

 We are SAMPLING at time 1033



*** Looping through 5.2. Iter = 1133 


  iteration 1133; minNextMutationTime = 1044; timeNextPopSample = 1034; popParams.size() = 2

 We are SAMPLING at time 1034



*** Looping through 5.2. Iter = 1134 


  iteration 1134; minNextMutationTime = 1045; timeNextPopSample = 1035; popParams.size() = 2

 We are SAMPLING at time 1035



*** Looping through 5.2. Iter = 1135 


  iteration 1135; minNextMutationTime = 1046; timeNextPopSample = 1036; popParams.size() = 2

 We are SAMPLING at time 1036



*** Looping through 5.2. Iter = 1136 


  iteration 1136; minNextMutationTime = 1047; timeNextPopSample = 1037; popParams.size() = 1

 We are SAMPLING at time 1037



*** Looping through 5.2. Iter = 1137 


  iteration 1137; minNextMutationTime = 1048; timeNextPopSample = 1038; popParams.size() = 1

 We are SAMPLING at time 1038



*** Looping through 5.2. Iter = 1138 


  iteration 1138; minNextMutationTime = 1049; timeNextPopSample = 1039; popParams.size() = 1

 We are SAMPLING at time 1039



*** Looping through 5.2. Iter = 1139 


  iteration 1139; minNextMutationTime = 1050; timeNextPopSample = 1040; popParams.size() = 1

 We are SAMPLING at time 1040



*** Looping through 5.2. Iter = 1140 


  iteration 1140; minNextMutationTime = 1051; timeNextPopSample = 1041; popParams.size() = 1

 We are SAMPLING at time 1041



*** Looping through 5.2. Iter = 1141 


  iteration 1141; minNextMutationTime = 1052; timeNextPopSample = 1042; popParams.size() = 1

 We are SAMPLING at time 1042



*** Looping through 5.2. Iter = 1142 


  iteration 1142; minNextMutationTime = 1053; timeNextPopSample = 1043; popParams.size() = 1

 We are SAMPLING at time 1043



*** Looping through 5.2. Iter = 1143 


  iteration 1143; minNextMutationTime = 1054; timeNextPopSample = 1044; popParams.size() = 1

 We are SAMPLING at time 1044



*** Looping through 5.2. Iter = 1144 


  iteration 1144; minNextMutationTime = 1055; timeNextPopSample = 1045; popParams.size() = 1

 We are SAMPLING at time 1045



*** Looping through 5.2. Iter = 1145 


  iteration 1145; minNextMutationTime = 1056; timeNextPopSample = 1046; popParams.size() = 1

 We are SAMPLING at time 1046



*** Looping through 5.2. Iter = 1146 


  iteration 1146; minNextMutationTime = 1057; timeNextPopSample = 1047; popParams.size() = 1

 We are SAMPLING at time 1047



*** Looping through 5.2. Iter = 1147 


  iteration 1147; minNextMutationTime = 1058; timeNextPopSample = 1048; popParams.size() = 1

 We are SAMPLING at time 1048



*** Looping through 5.2. Iter = 1148 


  iteration 1148; minNextMutationTime = 1059; timeNextPopSample = 1049; popParams.size() = 1

 We are SAMPLING at time 1049



*** Looping through 5.2. Iter = 1149 


  iteration 1149; minNextMutationTime = 1060; timeNextPopSample = 1050; popParams.size() = 1

 We are SAMPLING at time 1050



*** Looping through 5.2. Iter = 1150 


  iteration 1150; minNextMutationTime = 1061; timeNextPopSample = 1051; popParams.size() = 1

 We are SAMPLING at time 1051



*** Looping through 5.2. Iter = 1151 


  iteration 1151; minNextMutationTime = 1062; timeNextPopSample = 1052; popParams.size() = 1

 We are SAMPLING at time 1052



*** Looping through 5.2. Iter = 1152 


  iteration 1152; minNextMutationTime = 1063; timeNextPopSample = 1053; popParams.size() = 1

 We are SAMPLING at time 1053



*** Looping through 5.2. Iter = 1153 


  iteration 1153; minNextMutationTime = 1064; timeNextPopSample = 1054; popParams.size() = 1

 We are SAMPLING at time 1054



*** Looping through 5.2. Iter = 1154 


  iteration 1154; minNextMutationTime = 1065; timeNextPopSample = 1055; popParams.size() = 1

 We are SAMPLING at time 1055



*** Looping through 5.2. Iter = 1155 


  iteration 1155; minNextMutationTime = 1066; timeNextPopSample = 1056; popParams.size() = 1

 We are SAMPLING at time 1056



*** Looping through 5.2. Iter = 1156 


  iteration 1156; minNextMutationTime = 1067; timeNextPopSample = 1057; popParams.size() = 1

 We are SAMPLING at time 1057



*** Looping through 5.2. Iter = 1157 


  iteration 1157; minNextMutationTime = 1068; timeNextPopSample = 1058; popParams.size() = 1

 We are SAMPLING at time 1058



*** Looping through 5.2. Iter = 1158 


  iteration 1158; minNextMutationTime = 1069; timeNextPopSample = 1059; popParams.size() = 1

 We are SAMPLING at time 1059



*** Looping through 5.2. Iter = 1159 


  iteration 1159; minNextMutationTime = 1070; timeNextPopSample = 1060; popParams.size() = 1

 We are SAMPLING at time 1060



*** Looping through 5.2. Iter = 1160 


  iteration 1160; minNextMutationTime = 1060.67; timeNextPopSample = 1061; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1161 


  iteration 1161; minNextMutationTime = 1071; timeNextPopSample = 1061; popParams.size() = 2

 We are SAMPLING at time 1061



*** Looping through 5.2. Iter = 1162 


  iteration 1162; minNextMutationTime = 1072; timeNextPopSample = 1062; popParams.size() = 2

 We are SAMPLING at time 1062



*** Looping through 5.2. Iter = 1163 


  iteration 1163; minNextMutationTime = 1073; timeNextPopSample = 1063; popParams.size() = 2

 We are SAMPLING at time 1063



*** Looping through 5.2. Iter = 1164 


  iteration 1164; minNextMutationTime = 1074; timeNextPopSample = 1064; popParams.size() = 1

 We are SAMPLING at time 1064



*** Looping through 5.2. Iter = 1165 


  iteration 1165; minNextMutationTime = 1075; timeNextPopSample = 1065; popParams.size() = 1

 We are SAMPLING at time 1065



*** Looping through 5.2. Iter = 1166 


  iteration 1166; minNextMutationTime = 1076; timeNextPopSample = 1066; popParams.size() = 1

 We are SAMPLING at time 1066



*** Looping through 5.2. Iter = 1167 


  iteration 1167; minNextMutationTime = 1066.55; timeNextPopSample = 1067; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1168 


  iteration 1168; minNextMutationTime = 1077; timeNextPopSample = 1067; popParams.size() = 2

 We are SAMPLING at time 1067



*** Looping through 5.2. Iter = 1169 


  iteration 1169; minNextMutationTime = 1078; timeNextPopSample = 1068; popParams.size() = 2

 We are SAMPLING at time 1068



*** Looping through 5.2. Iter = 1170 


  iteration 1170; minNextMutationTime = 1079; timeNextPopSample = 1069; popParams.size() = 1

 We are SAMPLING at time 1069



*** Looping through 5.2. Iter = 1171 


  iteration 1171; minNextMutationTime = 1080; timeNextPopSample = 1070; popParams.size() = 1

 We are SAMPLING at time 1070



*** Looping through 5.2. Iter = 1172 


  iteration 1172; minNextMutationTime = 1081; timeNextPopSample = 1071; popParams.size() = 1

 We are SAMPLING at time 1071



*** Looping through 5.2. Iter = 1173 


  iteration 1173; minNextMutationTime = 1082; timeNextPopSample = 1072; popParams.size() = 1

 We are SAMPLING at time 1072



*** Looping through 5.2. Iter = 1174 


  iteration 1174; minNextMutationTime = 1083; timeNextPopSample = 1073; popParams.size() = 1

 We are SAMPLING at time 1073



*** Looping through 5.2. Iter = 1175 


  iteration 1175; minNextMutationTime = 1084; timeNextPopSample = 1074; popParams.size() = 1

 We are SAMPLING at time 1074



*** Looping through 5.2. Iter = 1176 


  iteration 1176; minNextMutationTime = 1085; timeNextPopSample = 1075; popParams.size() = 1

 We are SAMPLING at time 1075



*** Looping through 5.2. Iter = 1177 


  iteration 1177; minNextMutationTime = 1086; timeNextPopSample = 1076; popParams.size() = 1

 We are SAMPLING at time 1076



*** Looping through 5.2. Iter = 1178 


  iteration 1178; minNextMutationTime = 1087; timeNextPopSample = 1077; popParams.size() = 1

 We are SAMPLING at time 1077



*** Looping through 5.2. Iter = 1179 


  iteration 1179; minNextMutationTime = 1088; timeNextPopSample = 1078; popParams.size() = 1

 We are SAMPLING at time 1078



*** Looping through 5.2. Iter = 1180 


  iteration 1180; minNextMutationTime = 1089; timeNextPopSample = 1079; popParams.size() = 1

 We are SAMPLING at time 1079



*** Looping through 5.2. Iter = 1181 


  iteration 1181; minNextMutationTime = 1090; timeNextPopSample = 1080; popParams.size() = 1

 We are SAMPLING at time 1080



*** Looping through 5.2. Iter = 1182 


  iteration 1182; minNextMutationTime = 1091; timeNextPopSample = 1081; popParams.size() = 1

 We are SAMPLING at time 1081



*** Looping through 5.2. Iter = 1183 


  iteration 1183; minNextMutationTime = 1092; timeNextPopSample = 1082; popParams.size() = 1

 We are SAMPLING at time 1082



*** Looping through 5.2. Iter = 1184 


  iteration 1184; minNextMutationTime = 1093; timeNextPopSample = 1083; popParams.size() = 1

 We are SAMPLING at time 1083



*** Looping through 5.2. Iter = 1185 


  iteration 1185; minNextMutationTime = 1094; timeNextPopSample = 1084; popParams.size() = 1

 We are SAMPLING at time 1084



*** Looping through 5.2. Iter = 1186 


  iteration 1186; minNextMutationTime = 1095; timeNextPopSample = 1085; popParams.size() = 1

 We are SAMPLING at time 1085



*** Looping through 5.2. Iter = 1187 


  iteration 1187; minNextMutationTime = 1096; timeNextPopSample = 1086; popParams.size() = 1

 We are SAMPLING at time 1086



*** Looping through 5.2. Iter = 1188 


  iteration 1188; minNextMutationTime = 1086.48; timeNextPopSample = 1087; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1189 


  iteration 1189; minNextMutationTime = 1097; timeNextPopSample = 1087; popParams.size() = 2

 We are SAMPLING at time 1087



*** Looping through 5.2. Iter = 1190 


  iteration 1190; minNextMutationTime = 1098; timeNextPopSample = 1088; popParams.size() = 1

 We are SAMPLING at time 1088



*** Looping through 5.2. Iter = 1191 


  iteration 1191; minNextMutationTime = 1099; timeNextPopSample = 1089; popParams.size() = 1

 We are SAMPLING at time 1089



*** Looping through 5.2. Iter = 1192 


  iteration 1192; minNextMutationTime = 1100; timeNextPopSample = 1090; popParams.size() = 1

 We are SAMPLING at time 1090



*** Looping through 5.2. Iter = 1193 


  iteration 1193; minNextMutationTime = 1101; timeNextPopSample = 1091; popParams.size() = 1

 We are SAMPLING at time 1091



*** Looping through 5.2. Iter = 1194 


  iteration 1194; minNextMutationTime = 1102; timeNextPopSample = 1092; popParams.size() = 1

 We are SAMPLING at time 1092



*** Looping through 5.2. Iter = 1195 


  iteration 1195; minNextMutationTime = 1103; timeNextPopSample = 1093; popParams.size() = 1

 We are SAMPLING at time 1093



*** Looping through 5.2. Iter = 1196 


  iteration 1196; minNextMutationTime = 1104; timeNextPopSample = 1094; popParams.size() = 1

 We are SAMPLING at time 1094



*** Looping through 5.2. Iter = 1197 


  iteration 1197; minNextMutationTime = 1105; timeNextPopSample = 1095; popParams.size() = 1

 We are SAMPLING at time 1095



*** Looping through 5.2. Iter = 1198 


  iteration 1198; minNextMutationTime = 1106; timeNextPopSample = 1096; popParams.size() = 1

 We are SAMPLING at time 1096



*** Looping through 5.2. Iter = 1199 


  iteration 1199; minNextMutationTime = 1107; timeNextPopSample = 1097; popParams.size() = 1

 We are SAMPLING at time 1097



*** Looping through 5.2. Iter = 1200 


  iteration 1200; minNextMutationTime = 1108; timeNextPopSample = 1098; popParams.size() = 1

 We are SAMPLING at time 1098



*** Looping through 5.2. Iter = 1201 


  iteration 1201; minNextMutationTime = 1109; timeNextPopSample = 1099; popParams.size() = 1

 We are SAMPLING at time 1099



*** Looping through 5.2. Iter = 1202 


  iteration 1202; minNextMutationTime = 1099.68; timeNextPopSample = 1100; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1203 


  iteration 1203; minNextMutationTime = 1110; timeNextPopSample = 1100; popParams.size() = 2

 We are SAMPLING at time 1100



*** Looping through 5.2. Iter = 1204 


  iteration 1204; minNextMutationTime = 1111; timeNextPopSample = 1101; popParams.size() = 2

 We are SAMPLING at time 1101



*** Looping through 5.2. Iter = 1205 


  iteration 1205; minNextMutationTime = 1112; timeNextPopSample = 1102; popParams.size() = 2

 We are SAMPLING at time 1102



*** Looping through 5.2. Iter = 1206 


  iteration 1206; minNextMutationTime = 1113; timeNextPopSample = 1103; popParams.size() = 2

 We are SAMPLING at time 1103



*** Looping through 5.2. Iter = 1207 


  iteration 1207; minNextMutationTime = 1114; timeNextPopSample = 1104; popParams.size() = 2

 We are SAMPLING at time 1104



*** Looping through 5.2. Iter = 1208 


  iteration 1208; minNextMutationTime = 1115; timeNextPopSample = 1105; popParams.size() = 2

 We are SAMPLING at time 1105



*** Looping through 5.2. Iter = 1209 


  iteration 1209; minNextMutationTime = 1116; timeNextPopSample = 1106; popParams.size() = 1

 We are SAMPLING at time 1106



*** Looping through 5.2. Iter = 1210 


  iteration 1210; minNextMutationTime = 1117; timeNextPopSample = 1107; popParams.size() = 1

 We are SAMPLING at time 1107



*** Looping through 5.2. Iter = 1211 


  iteration 1211; minNextMutationTime = 1118; timeNextPopSample = 1108; popParams.size() = 1

 We are SAMPLING at time 1108



*** Looping through 5.2. Iter = 1212 


  iteration 1212; minNextMutationTime = 1119; timeNextPopSample = 1109; popParams.size() = 1

 We are SAMPLING at time 1109



*** Looping through 5.2. Iter = 1213 


  iteration 1213; minNextMutationTime = 1120; timeNextPopSample = 1110; popParams.size() = 1

 We are SAMPLING at time 1110



*** Looping through 5.2. Iter = 1214 


  iteration 1214; minNextMutationTime = 1121; timeNextPopSample = 1111; popParams.size() = 1

 We are SAMPLING at time 1111



*** Looping through 5.2. Iter = 1215 


  iteration 1215; minNextMutationTime = 1122; timeNextPopSample = 1112; popParams.size() = 1

 We are SAMPLING at time 1112



*** Looping through 5.2. Iter = 1216 


  iteration 1216; minNextMutationTime = 1123; timeNextPopSample = 1113; popParams.size() = 1

 We are SAMPLING at time 1113



*** Looping through 5.2. Iter = 1217 


  iteration 1217; minNextMutationTime = 1124; timeNextPopSample = 1114; popParams.size() = 1

 We are SAMPLING at time 1114



*** Looping through 5.2. Iter = 1218 


  iteration 1218; minNextMutationTime = 1125; timeNextPopSample = 1115; popParams.size() = 1

 We are SAMPLING at time 1115



*** Looping through 5.2. Iter = 1219 


  iteration 1219; minNextMutationTime = 1126; timeNextPopSample = 1116; popParams.size() = 1

 We are SAMPLING at time 1116



*** Looping through 5.2. Iter = 1220 


  iteration 1220; minNextMutationTime = 1127; timeNextPopSample = 1117; popParams.size() = 1

 We are SAMPLING at time 1117



*** Looping through 5.2. Iter = 1221 


  iteration 1221; minNextMutationTime = 1117.16; timeNextPopSample = 1118; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1222 


  iteration 1222; minNextMutationTime = 1128; timeNextPopSample = 1118; popParams.size() = 2

 We are SAMPLING at time 1118



*** Looping through 5.2. Iter = 1223 


  iteration 1223; minNextMutationTime = 1129; timeNextPopSample = 1119; popParams.size() = 1

 We are SAMPLING at time 1119



*** Looping through 5.2. Iter = 1224 


  iteration 1224; minNextMutationTime = 1130; timeNextPopSample = 1120; popParams.size() = 1

 We are SAMPLING at time 1120



*** Looping through 5.2. Iter = 1225 


  iteration 1225; minNextMutationTime = 1120.57; timeNextPopSample = 1121; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1226 


  iteration 1226; minNextMutationTime = 1131; timeNextPopSample = 1121; popParams.size() = 2

 We are SAMPLING at time 1121



*** Looping through 5.2. Iter = 1227 


  iteration 1227; minNextMutationTime = 1132; timeNextPopSample = 1122; popParams.size() = 1

 We are SAMPLING at time 1122



*** Looping through 5.2. Iter = 1228 


  iteration 1228; minNextMutationTime = 1133; timeNextPopSample = 1123; popParams.size() = 1

 We are SAMPLING at time 1123



*** Looping through 5.2. Iter = 1229 


  iteration 1229; minNextMutationTime = 1134; timeNextPopSample = 1124; popParams.size() = 1

 We are SAMPLING at time 1124



*** Looping through 5.2. Iter = 1230 


  iteration 1230; minNextMutationTime = 1135; timeNextPopSample = 1125; popParams.size() = 1

 We are SAMPLING at time 1125



*** Looping through 5.2. Iter = 1231 


  iteration 1231; minNextMutationTime = 1136; timeNextPopSample = 1126; popParams.size() = 1

 We are SAMPLING at time 1126



*** Looping through 5.2. Iter = 1232 


  iteration 1232; minNextMutationTime = 1137; timeNextPopSample = 1127; popParams.size() = 1

 We are SAMPLING at time 1127



*** Looping through 5.2. Iter = 1233 


  iteration 1233; minNextMutationTime = 1138; timeNextPopSample = 1128; popParams.size() = 1

 We are SAMPLING at time 1128



*** Looping through 5.2. Iter = 1234 


  iteration 1234; minNextMutationTime = 1128.24; timeNextPopSample = 1129; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1235 


  iteration 1235; minNextMutationTime = 1128.5; timeNextPopSample = 1129; popParams.size() = 2

     Mutated to existing species 1 (Genotype = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 1)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 1)
 New popSize = 2



*** Looping through 5.2. Iter = 1236 


  iteration 1236; minNextMutationTime = 1128.73; timeNextPopSample = 1129; popParams.size() = 2

     Mutated to existing species 1 (Genotype = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 1)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 1)
 New popSize = 3



*** Looping through 5.2. Iter = 1237 


  iteration 1237; minNextMutationTime = 1139; timeNextPopSample = 1129; popParams.size() = 2

 We are SAMPLING at time 1129



*** Looping through 5.2. Iter = 1238 


  iteration 1238; minNextMutationTime = 1140; timeNextPopSample = 1130; popParams.size() = 1

 We are SAMPLING at time 1130



*** Looping through 5.2. Iter = 1239 


  iteration 1239; minNextMutationTime = 1141; timeNextPopSample = 1131; popParams.size() = 1

 We are SAMPLING at time 1131



*** Looping through 5.2. Iter = 1240 


  iteration 1240; minNextMutationTime = 1142; timeNextPopSample = 1132; popParams.size() = 1

 We are SAMPLING at time 1132



*** Looping through 5.2. Iter = 1241 


  iteration 1241; minNextMutationTime = 1143; timeNextPopSample = 1133; popParams.size() = 1

 We are SAMPLING at time 1133



*** Looping through 5.2. Iter = 1242 


  iteration 1242; minNextMutationTime = 1144; timeNextPopSample = 1134; popParams.size() = 1

 We are SAMPLING at time 1134



*** Looping through 5.2. Iter = 1243 


  iteration 1243; minNextMutationTime = 1145; timeNextPopSample = 1135; popParams.size() = 1

 We are SAMPLING at time 1135



*** Looping through 5.2. Iter = 1244 


  iteration 1244; minNextMutationTime = 1146; timeNextPopSample = 1136; popParams.size() = 1

 We are SAMPLING at time 1136



*** Looping through 5.2. Iter = 1245 


  iteration 1245; minNextMutationTime = 1147; timeNextPopSample = 1137; popParams.size() = 1

 We are SAMPLING at time 1137



*** Looping through 5.2. Iter = 1246 


  iteration 1246; minNextMutationTime = 1148; timeNextPopSample = 1138; popParams.size() = 1

 We are SAMPLING at time 1138



*** Looping through 5.2. Iter = 1247 


  iteration 1247; minNextMutationTime = 1149; timeNextPopSample = 1139; popParams.size() = 1

 We are SAMPLING at time 1139



*** Looping through 5.2. Iter = 1248 


  iteration 1248; minNextMutationTime = 1150; timeNextPopSample = 1140; popParams.size() = 1

 We are SAMPLING at time 1140



*** Looping through 5.2. Iter = 1249 


  iteration 1249; minNextMutationTime = 1151; timeNextPopSample = 1141; popParams.size() = 1

 We are SAMPLING at time 1141



*** Looping through 5.2. Iter = 1250 


  iteration 1250; minNextMutationTime = 1152; timeNextPopSample = 1142; popParams.size() = 1

 We are SAMPLING at time 1142



*** Looping through 5.2. Iter = 1251 


  iteration 1251; minNextMutationTime = 1153; timeNextPopSample = 1143; popParams.size() = 1

 We are SAMPLING at time 1143



*** Looping through 5.2. Iter = 1252 


  iteration 1252; minNextMutationTime = 1154; timeNextPopSample = 1144; popParams.size() = 1

 We are SAMPLING at time 1144



*** Looping through 5.2. Iter = 1253 


  iteration 1253; minNextMutationTime = 1155; timeNextPopSample = 1145; popParams.size() = 1

 We are SAMPLING at time 1145



*** Looping through 5.2. Iter = 1254 


  iteration 1254; minNextMutationTime = 1156; timeNextPopSample = 1146; popParams.size() = 1

 We are SAMPLING at time 1146



*** Looping through 5.2. Iter = 1255 


  iteration 1255; minNextMutationTime = 1157; timeNextPopSample = 1147; popParams.size() = 1

 We are SAMPLING at time 1147



*** Looping through 5.2. Iter = 1256 


  iteration 1256; minNextMutationTime = 1158; timeNextPopSample = 1148; popParams.size() = 1

 We are SAMPLING at time 1148



*** Looping through 5.2. Iter = 1257 


  iteration 1257; minNextMutationTime = 1159; timeNextPopSample = 1149; popParams.size() = 1

 We are SAMPLING at time 1149



*** Looping through 5.2. Iter = 1258 


  iteration 1258; minNextMutationTime = 1160; timeNextPopSample = 1150; popParams.size() = 1

 We are SAMPLING at time 1150



*** Looping through 5.2. Iter = 1259 


  iteration 1259; minNextMutationTime = 1161; timeNextPopSample = 1151; popParams.size() = 1

 We are SAMPLING at time 1151



*** Looping through 5.2. Iter = 1260 


  iteration 1260; minNextMutationTime = 1162; timeNextPopSample = 1152; popParams.size() = 1

 We are SAMPLING at time 1152



*** Looping through 5.2. Iter = 1261 


  iteration 1261; minNextMutationTime = 1152.22; timeNextPopSample = 1153; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1262 


  iteration 1262; minNextMutationTime = 1163; timeNextPopSample = 1153; popParams.size() = 2

 We are SAMPLING at time 1153



*** Looping through 5.2. Iter = 1263 


  iteration 1263; minNextMutationTime = 1164; timeNextPopSample = 1154; popParams.size() = 2

 We are SAMPLING at time 1154



*** Looping through 5.2. Iter = 1264 


  iteration 1264; minNextMutationTime = 1165; timeNextPopSample = 1155; popParams.size() = 1

 We are SAMPLING at time 1155



*** Looping through 5.2. Iter = 1265 


  iteration 1265; minNextMutationTime = 1166; timeNextPopSample = 1156; popParams.size() = 1

 We are SAMPLING at time 1156



*** Looping through 5.2. Iter = 1266 


  iteration 1266; minNextMutationTime = 1167; timeNextPopSample = 1157; popParams.size() = 1

 We are SAMPLING at time 1157



*** Looping through 5.2. Iter = 1267 


  iteration 1267; minNextMutationTime = 1168; timeNextPopSample = 1158; popParams.size() = 1

 We are SAMPLING at time 1158



*** Looping through 5.2. Iter = 1268 


  iteration 1268; minNextMutationTime = 1169; timeNextPopSample = 1159; popParams.size() = 1

 We are SAMPLING at time 1159



*** Looping through 5.2. Iter = 1269 


  iteration 1269; minNextMutationTime = 1170; timeNextPopSample = 1160; popParams.size() = 1

 We are SAMPLING at time 1160



*** Looping through 5.2. Iter = 1270 


  iteration 1270; minNextMutationTime = 1160.18; timeNextPopSample = 1161; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1271 


  iteration 1271; minNextMutationTime = 1171; timeNextPopSample = 1161; popParams.size() = 2

 We are SAMPLING at time 1161



*** Looping through 5.2. Iter = 1272 


  iteration 1272; minNextMutationTime = 1172; timeNextPopSample = 1162; popParams.size() = 1

 We are SAMPLING at time 1162



*** Looping through 5.2. Iter = 1273 


  iteration 1273; minNextMutationTime = 1173; timeNextPopSample = 1163; popParams.size() = 1

 We are SAMPLING at time 1163



*** Looping through 5.2. Iter = 1274 


  iteration 1274; minNextMutationTime = 1174; timeNextPopSample = 1164; popParams.size() = 1

 We are SAMPLING at time 1164



*** Looping through 5.2. Iter = 1275 


  iteration 1275; minNextMutationTime = 1175; timeNextPopSample = 1165; popParams.size() = 1

 We are SAMPLING at time 1165



*** Looping through 5.2. Iter = 1276 


  iteration 1276; minNextMutationTime = 1176; timeNextPopSample = 1166; popParams.size() = 1

 We are SAMPLING at time 1166



*** Looping through 5.2. Iter = 1277 


  iteration 1277; minNextMutationTime = 1177; timeNextPopSample = 1167; popParams.size() = 1

 We are SAMPLING at time 1167



*** Looping through 5.2. Iter = 1278 


  iteration 1278; minNextMutationTime = 1178; timeNextPopSample = 1168; popParams.size() = 1

 We are SAMPLING at time 1168



*** Looping through 5.2. Iter = 1279 


  iteration 1279; minNextMutationTime = 1179; timeNextPopSample = 1169; popParams.size() = 1

 We are SAMPLING at time 1169



*** Looping through 5.2. Iter = 1280 


  iteration 1280; minNextMutationTime = 1180; timeNextPopSample = 1170; popParams.size() = 1

 We are SAMPLING at time 1170



*** Looping through 5.2. Iter = 1281 


  iteration 1281; minNextMutationTime = 1181; timeNextPopSample = 1171; popParams.size() = 1

 We are SAMPLING at time 1171



*** Looping through 5.2. Iter = 1282 


  iteration 1282; minNextMutationTime = 1182; timeNextPopSample = 1172; popParams.size() = 1

 We are SAMPLING at time 1172



*** Looping through 5.2. Iter = 1283 


  iteration 1283; minNextMutationTime = 1183; timeNextPopSample = 1173; popParams.size() = 1

 We are SAMPLING at time 1173



*** Looping through 5.2. Iter = 1284 


  iteration 1284; minNextMutationTime = 1184; timeNextPopSample = 1174; popParams.size() = 1

 We are SAMPLING at time 1174



*** Looping through 5.2. Iter = 1285 


  iteration 1285; minNextMutationTime = 1185; timeNextPopSample = 1175; popParams.size() = 1

 We are SAMPLING at time 1175



*** Looping through 5.2. Iter = 1286 


  iteration 1286; minNextMutationTime = 1186; timeNextPopSample = 1176; popParams.size() = 1

 We are SAMPLING at time 1176



*** Looping through 5.2. Iter = 1287 


  iteration 1287; minNextMutationTime = 1187; timeNextPopSample = 1177; popParams.size() = 1

 We are SAMPLING at time 1177



*** Looping through 5.2. Iter = 1288 


  iteration 1288; minNextMutationTime = 1188; timeNextPopSample = 1178; popParams.size() = 1

 We are SAMPLING at time 1178



*** Looping through 5.2. Iter = 1289 


  iteration 1289; minNextMutationTime = 1178.26; timeNextPopSample = 1179; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1290 


  iteration 1290; minNextMutationTime = 1189; timeNextPopSample = 1179; popParams.size() = 2

 We are SAMPLING at time 1179



*** Looping through 5.2. Iter = 1291 


  iteration 1291; minNextMutationTime = 1190; timeNextPopSample = 1180; popParams.size() = 1

 We are SAMPLING at time 1180



*** Looping through 5.2. Iter = 1292 


  iteration 1292; minNextMutationTime = 1191; timeNextPopSample = 1181; popParams.size() = 1

 We are SAMPLING at time 1181



*** Looping through 5.2. Iter = 1293 


  iteration 1293; minNextMutationTime = 1192; timeNextPopSample = 1182; popParams.size() = 1

 We are SAMPLING at time 1182



*** Looping through 5.2. Iter = 1294 


  iteration 1294; minNextMutationTime = 1193; timeNextPopSample = 1183; popParams.size() = 1

 We are SAMPLING at time 1183



*** Looping through 5.2. Iter = 1295 


  iteration 1295; minNextMutationTime = 1194; timeNextPopSample = 1184; popParams.size() = 1

 We are SAMPLING at time 1184



*** Looping through 5.2. Iter = 1296 


  iteration 1296; minNextMutationTime = 1195; timeNextPopSample = 1185; popParams.size() = 1

 We are SAMPLING at time 1185



*** Looping through 5.2. Iter = 1297 


  iteration 1297; minNextMutationTime = 1196; timeNextPopSample = 1186; popParams.size() = 1

 We are SAMPLING at time 1186



*** Looping through 5.2. Iter = 1298 


  iteration 1298; minNextMutationTime = 1197; timeNextPopSample = 1187; popParams.size() = 1

 We are SAMPLING at time 1187



*** Looping through 5.2. Iter = 1299 


  iteration 1299; minNextMutationTime = 1198; timeNextPopSample = 1188; popParams.size() = 1

 We are SAMPLING at time 1188



*** Looping through 5.2. Iter = 1300 


  iteration 1300; minNextMutationTime = 1199; timeNextPopSample = 1189; popParams.size() = 1

 We are SAMPLING at time 1189



*** Looping through 5.2. Iter = 1301 


  iteration 1301; minNextMutationTime = 1189.53; timeNextPopSample = 1190; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1302 


  iteration 1302; minNextMutationTime = 1200; timeNextPopSample = 1190; popParams.size() = 2

 We are SAMPLING at time 1190



*** Looping through 5.2. Iter = 1303 


  iteration 1303; minNextMutationTime = 1201; timeNextPopSample = 1191; popParams.size() = 2

 We are SAMPLING at time 1191



*** Looping through 5.2. Iter = 1304 


  iteration 1304; minNextMutationTime = 1202; timeNextPopSample = 1192; popParams.size() = 1

 We are SAMPLING at time 1192



*** Looping through 5.2. Iter = 1305 


  iteration 1305; minNextMutationTime = 1203; timeNextPopSample = 1193; popParams.size() = 1

 We are SAMPLING at time 1193



*** Looping through 5.2. Iter = 1306 


  iteration 1306; minNextMutationTime = 1204; timeNextPopSample = 1194; popParams.size() = 1

 We are SAMPLING at time 1194



*** Looping through 5.2. Iter = 1307 


  iteration 1307; minNextMutationTime = 1205; timeNextPopSample = 1195; popParams.size() = 1

 We are SAMPLING at time 1195



*** Looping through 5.2. Iter = 1308 


  iteration 1308; minNextMutationTime = 1206; timeNextPopSample = 1196; popParams.size() = 1

 We are SAMPLING at time 1196



*** Looping through 5.2. Iter = 1309 


  iteration 1309; minNextMutationTime = 1196.32; timeNextPopSample = 1197; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1310 


  iteration 1310; minNextMutationTime = 1207; timeNextPopSample = 1197; popParams.size() = 2

 We are SAMPLING at time 1197



*** Looping through 5.2. Iter = 1311 


  iteration 1311; minNextMutationTime = 1197.63; timeNextPopSample = 1198; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1312 


  iteration 1312; minNextMutationTime = 1208; timeNextPopSample = 1198; popParams.size() = 3

 We are SAMPLING at time 1198



*** Looping through 5.2. Iter = 1313 


  iteration 1313; minNextMutationTime = 1209; timeNextPopSample = 1199; popParams.size() = 2

 We are SAMPLING at time 1199



*** Looping through 5.2. Iter = 1314 


  iteration 1314; minNextMutationTime = 1210; timeNextPopSample = 1200; popParams.size() = 1

 We are SAMPLING at time 1200



*** Looping through 5.2. Iter = 1315 


  iteration 1315; minNextMutationTime = 1211; timeNextPopSample = 1201; popParams.size() = 1

 We are SAMPLING at time 1201



*** Looping through 5.2. Iter = 1316 


  iteration 1316; minNextMutationTime = 1212; timeNextPopSample = 1202; popParams.size() = 1

 We are SAMPLING at time 1202



*** Looping through 5.2. Iter = 1317 


  iteration 1317; minNextMutationTime = 1213; timeNextPopSample = 1203; popParams.size() = 1

 We are SAMPLING at time 1203



*** Looping through 5.2. Iter = 1318 


  iteration 1318; minNextMutationTime = 1214; timeNextPopSample = 1204; popParams.size() = 1

 We are SAMPLING at time 1204



*** Looping through 5.2. Iter = 1319 


  iteration 1319; minNextMutationTime = 1215; timeNextPopSample = 1205; popParams.size() = 1

 We are SAMPLING at time 1205



*** Looping through 5.2. Iter = 1320 


  iteration 1320; minNextMutationTime = 1205.91; timeNextPopSample = 1206; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1321 


  iteration 1321; minNextMutationTime = 1216; timeNextPopSample = 1206; popParams.size() = 2

 We are SAMPLING at time 1206



*** Looping through 5.2. Iter = 1322 


  iteration 1322; minNextMutationTime = 1217; timeNextPopSample = 1207; popParams.size() = 2

 We are SAMPLING at time 1207



*** Looping through 5.2. Iter = 1323 


  iteration 1323; minNextMutationTime = 1218; timeNextPopSample = 1208; popParams.size() = 1

 We are SAMPLING at time 1208



*** Looping through 5.2. Iter = 1324 


  iteration 1324; minNextMutationTime = 1219; timeNextPopSample = 1209; popParams.size() = 1

 We are SAMPLING at time 1209



*** Looping through 5.2. Iter = 1325 


  iteration 1325; minNextMutationTime = 1220; timeNextPopSample = 1210; popParams.size() = 1

 We are SAMPLING at time 1210



*** Looping through 5.2. Iter = 1326 


  iteration 1326; minNextMutationTime = 1221; timeNextPopSample = 1211; popParams.size() = 1

 We are SAMPLING at time 1211



*** Looping through 5.2. Iter = 1327 


  iteration 1327; minNextMutationTime = 1222; timeNextPopSample = 1212; popParams.size() = 1

 We are SAMPLING at time 1212



*** Looping through 5.2. Iter = 1328 


  iteration 1328; minNextMutationTime = 1223; timeNextPopSample = 1213; popParams.size() = 1

 We are SAMPLING at time 1213



*** Looping through 5.2. Iter = 1329 


  iteration 1329; minNextMutationTime = 1224; timeNextPopSample = 1214; popParams.size() = 1

 We are SAMPLING at time 1214



*** Looping through 5.2. Iter = 1330 


  iteration 1330; minNextMutationTime = 1225; timeNextPopSample = 1215; popParams.size() = 1

 We are SAMPLING at time 1215



*** Looping through 5.2. Iter = 1331 


  iteration 1331; minNextMutationTime = 1226; timeNextPopSample = 1216; popParams.size() = 1

 We are SAMPLING at time 1216



*** Looping through 5.2. Iter = 1332 


  iteration 1332; minNextMutationTime = 1216.8; timeNextPopSample = 1217; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1333 


  iteration 1333; minNextMutationTime = 1227; timeNextPopSample = 1217; popParams.size() = 2

 We are SAMPLING at time 1217



*** Looping through 5.2. Iter = 1334 


  iteration 1334; minNextMutationTime = 1228; timeNextPopSample = 1218; popParams.size() = 2

 We are SAMPLING at time 1218



*** Looping through 5.2. Iter = 1335 


  iteration 1335; minNextMutationTime = 1229; timeNextPopSample = 1219; popParams.size() = 2

 We are SAMPLING at time 1219



*** Looping through 5.2. Iter = 1336 


  iteration 1336; minNextMutationTime = 1230; timeNextPopSample = 1220; popParams.size() = 2

 We are SAMPLING at time 1220



*** Looping through 5.2. Iter = 1337 


  iteration 1337; minNextMutationTime = 1231; timeNextPopSample = 1221; popParams.size() = 1

 We are SAMPLING at time 1221



*** Looping through 5.2. Iter = 1338 


  iteration 1338; minNextMutationTime = 1232; timeNextPopSample = 1222; popParams.size() = 1

 We are SAMPLING at time 1222



*** Looping through 5.2. Iter = 1339 


  iteration 1339; minNextMutationTime = 1233; timeNextPopSample = 1223; popParams.size() = 1

 We are SAMPLING at time 1223



*** Looping through 5.2. Iter = 1340 


  iteration 1340; minNextMutationTime = 1234; timeNextPopSample = 1224; popParams.size() = 1

 We are SAMPLING at time 1224



*** Looping through 5.2. Iter = 1341 


  iteration 1341; minNextMutationTime = 1235; timeNextPopSample = 1225; popParams.size() = 1

 We are SAMPLING at time 1225



*** Looping through 5.2. Iter = 1342 


  iteration 1342; minNextMutationTime = 1236; timeNextPopSample = 1226; popParams.size() = 1

 We are SAMPLING at time 1226



*** Looping through 5.2. Iter = 1343 


  iteration 1343; minNextMutationTime = 1237; timeNextPopSample = 1227; popParams.size() = 1

 We are SAMPLING at time 1227



*** Looping through 5.2. Iter = 1344 


  iteration 1344; minNextMutationTime = 1238; timeNextPopSample = 1228; popParams.size() = 1

 We are SAMPLING at time 1228



*** Looping through 5.2. Iter = 1345 


  iteration 1345; minNextMutationTime = 1239; timeNextPopSample = 1229; popParams.size() = 1

 We are SAMPLING at time 1229



*** Looping through 5.2. Iter = 1346 


  iteration 1346; minNextMutationTime = 1240; timeNextPopSample = 1230; popParams.size() = 1

 We are SAMPLING at time 1230



*** Looping through 5.2. Iter = 1347 


  iteration 1347; minNextMutationTime = 1241; timeNextPopSample = 1231; popParams.size() = 1

 We are SAMPLING at time 1231



*** Looping through 5.2. Iter = 1348 


  iteration 1348; minNextMutationTime = 1242; timeNextPopSample = 1232; popParams.size() = 1

 We are SAMPLING at time 1232



*** Looping through 5.2. Iter = 1349 


  iteration 1349; minNextMutationTime = 1243; timeNextPopSample = 1233; popParams.size() = 1

 We are SAMPLING at time 1233



*** Looping through 5.2. Iter = 1350 


  iteration 1350; minNextMutationTime = 1244; timeNextPopSample = 1234; popParams.size() = 1

 We are SAMPLING at time 1234



*** Looping through 5.2. Iter = 1351 


  iteration 1351; minNextMutationTime = 1245; timeNextPopSample = 1235; popParams.size() = 1

 We are SAMPLING at time 1235



*** Looping through 5.2. Iter = 1352 


  iteration 1352; minNextMutationTime = 1246; timeNextPopSample = 1236; popParams.size() = 1

 We are SAMPLING at time 1236



*** Looping through 5.2. Iter = 1353 


  iteration 1353; minNextMutationTime = 1236.28; timeNextPopSample = 1237; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1354 


  iteration 1354; minNextMutationTime = 1247; timeNextPopSample = 1237; popParams.size() = 2

 We are SAMPLING at time 1237



*** Looping through 5.2. Iter = 1355 


  iteration 1355; minNextMutationTime = 1248; timeNextPopSample = 1238; popParams.size() = 2

 We are SAMPLING at time 1238



*** Looping through 5.2. Iter = 1356 


  iteration 1356; minNextMutationTime = 1249; timeNextPopSample = 1239; popParams.size() = 2

 We are SAMPLING at time 1239



*** Looping through 5.2. Iter = 1357 


  iteration 1357; minNextMutationTime = 1250; timeNextPopSample = 1240; popParams.size() = 2

 We are SAMPLING at time 1240



*** Looping through 5.2. Iter = 1358 


  iteration 1358; minNextMutationTime = 1251; timeNextPopSample = 1241; popParams.size() = 2

 We are SAMPLING at time 1241



*** Looping through 5.2. Iter = 1359 


  iteration 1359; minNextMutationTime = 1252; timeNextPopSample = 1242; popParams.size() = 2

 We are SAMPLING at time 1242



*** Looping through 5.2. Iter = 1360 


  iteration 1360; minNextMutationTime = 1253; timeNextPopSample = 1243; popParams.size() = 2

 We are SAMPLING at time 1243



*** Looping through 5.2. Iter = 1361 


  iteration 1361; minNextMutationTime = 1254; timeNextPopSample = 1244; popParams.size() = 1

 We are SAMPLING at time 1244



*** Looping through 5.2. Iter = 1362 


  iteration 1362; minNextMutationTime = 1255; timeNextPopSample = 1245; popParams.size() = 1

 We are SAMPLING at time 1245



*** Looping through 5.2. Iter = 1363 


  iteration 1363; minNextMutationTime = 1245.59; timeNextPopSample = 1246; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1364 


  iteration 1364; minNextMutationTime = 1256; timeNextPopSample = 1246; popParams.size() = 2

 We are SAMPLING at time 1246



*** Looping through 5.2. Iter = 1365 


  iteration 1365; minNextMutationTime = 1246.64; timeNextPopSample = 1247; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1366 


  iteration 1366; minNextMutationTime = 1257; timeNextPopSample = 1247; popParams.size() = 3

 We are SAMPLING at time 1247



*** Looping through 5.2. Iter = 1367 


  iteration 1367; minNextMutationTime = 1258; timeNextPopSample = 1248; popParams.size() = 1

 We are SAMPLING at time 1248



*** Looping through 5.2. Iter = 1368 


  iteration 1368; minNextMutationTime = 1248.35; timeNextPopSample = 1249; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1369 


  iteration 1369; minNextMutationTime = 1259; timeNextPopSample = 1249; popParams.size() = 2

 We are SAMPLING at time 1249



*** Looping through 5.2. Iter = 1370 


  iteration 1370; minNextMutationTime = 1260; timeNextPopSample = 1250; popParams.size() = 1

 We are SAMPLING at time 1250



*** Looping through 5.2. Iter = 1371 


  iteration 1371; minNextMutationTime = 1261; timeNextPopSample = 1251; popParams.size() = 1

 We are SAMPLING at time 1251



*** Looping through 5.2. Iter = 1372 


  iteration 1372; minNextMutationTime = 1262; timeNextPopSample = 1252; popParams.size() = 1

 We are SAMPLING at time 1252



*** Looping through 5.2. Iter = 1373 


  iteration 1373; minNextMutationTime = 1263; timeNextPopSample = 1253; popParams.size() = 1

 We are SAMPLING at time 1253



*** Looping through 5.2. Iter = 1374 


  iteration 1374; minNextMutationTime = 1264; timeNextPopSample = 1254; popParams.size() = 1

 We are SAMPLING at time 1254



*** Looping through 5.2. Iter = 1375 


  iteration 1375; minNextMutationTime = 1265; timeNextPopSample = 1255; popParams.size() = 1

 We are SAMPLING at time 1255



*** Looping through 5.2. Iter = 1376 


  iteration 1376; minNextMutationTime = 1266; timeNextPopSample = 1256; popParams.size() = 1

 We are SAMPLING at time 1256



*** Looping through 5.2. Iter = 1377 


  iteration 1377; minNextMutationTime = 1267; timeNextPopSample = 1257; popParams.size() = 1

 We are SAMPLING at time 1257



*** Looping through 5.2. Iter = 1378 


  iteration 1378; minNextMutationTime = 1268; timeNextPopSample = 1258; popParams.size() = 1

 We are SAMPLING at time 1258



*** Looping through 5.2. Iter = 1379 


  iteration 1379; minNextMutationTime = 1269; timeNextPopSample = 1259; popParams.size() = 1

 We are SAMPLING at time 1259



*** Looping through 5.2. Iter = 1380 


  iteration 1380; minNextMutationTime = 1270; timeNextPopSample = 1260; popParams.size() = 1

 We are SAMPLING at time 1260



*** Looping through 5.2. Iter = 1381 


  iteration 1381; minNextMutationTime = 1271; timeNextPopSample = 1261; popParams.size() = 1

 We are SAMPLING at time 1261



*** Looping through 5.2. Iter = 1382 


  iteration 1382; minNextMutationTime = 1272; timeNextPopSample = 1262; popParams.size() = 1

 We are SAMPLING at time 1262



*** Looping through 5.2. Iter = 1383 


  iteration 1383; minNextMutationTime = 1273; timeNextPopSample = 1263; popParams.size() = 1

 We are SAMPLING at time 1263



*** Looping through 5.2. Iter = 1384 


  iteration 1384; minNextMutationTime = 1274; timeNextPopSample = 1264; popParams.size() = 1

 We are SAMPLING at time 1264



*** Looping through 5.2. Iter = 1385 


  iteration 1385; minNextMutationTime = 1275; timeNextPopSample = 1265; popParams.size() = 1

 We are SAMPLING at time 1265



*** Looping through 5.2. Iter = 1386 


  iteration 1386; minNextMutationTime = 1265.29; timeNextPopSample = 1266; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1387 


  iteration 1387; minNextMutationTime = 1276; timeNextPopSample = 1266; popParams.size() = 2

 We are SAMPLING at time 1266



*** Looping through 5.2. Iter = 1388 


  iteration 1388; minNextMutationTime = 1277; timeNextPopSample = 1267; popParams.size() = 2

 We are SAMPLING at time 1267



*** Looping through 5.2. Iter = 1389 


  iteration 1389; minNextMutationTime = 1278; timeNextPopSample = 1268; popParams.size() = 2

 We are SAMPLING at time 1268



*** Looping through 5.2. Iter = 1390 


  iteration 1390; minNextMutationTime = 1268.91; timeNextPopSample = 1269; popParams.size() = 2

     Mutated to existing species 1 (Genotype = 0000000000000000000000000000000000000000000000000000000000100000; sp_id = 32)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 32)
 New popSize = 2



*** Looping through 5.2. Iter = 1391 


  iteration 1391; minNextMutationTime = 1279; timeNextPopSample = 1269; popParams.size() = 2

 We are SAMPLING at time 1269



*** Looping through 5.2. Iter = 1392 


  iteration 1392; minNextMutationTime = 1280; timeNextPopSample = 1270; popParams.size() = 2

 We are SAMPLING at time 1270



*** Looping through 5.2. Iter = 1393 


  iteration 1393; minNextMutationTime = 1281; timeNextPopSample = 1271; popParams.size() = 2

 We are SAMPLING at time 1271



*** Looping through 5.2. Iter = 1394 


  iteration 1394; minNextMutationTime = 1271.52; timeNextPopSample = 1272; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1395 


  iteration 1395; minNextMutationTime = 1282; timeNextPopSample = 1272; popParams.size() = 3

 We are SAMPLING at time 1272



*** Looping through 5.2. Iter = 1396 


  iteration 1396; minNextMutationTime = 1283; timeNextPopSample = 1273; popParams.size() = 3

 We are SAMPLING at time 1273



*** Looping through 5.2. Iter = 1397 


  iteration 1397; minNextMutationTime = 1284; timeNextPopSample = 1274; popParams.size() = 2

 We are SAMPLING at time 1274



*** Looping through 5.2. Iter = 1398 


  iteration 1398; minNextMutationTime = 1274.46; timeNextPopSample = 1275; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1399 


  iteration 1399; minNextMutationTime = 1285; timeNextPopSample = 1275; popParams.size() = 2

 We are SAMPLING at time 1275



*** Looping through 5.2. Iter = 1400 


  iteration 1400; minNextMutationTime = 1286; timeNextPopSample = 1276; popParams.size() = 2

 We are SAMPLING at time 1276



*** Looping through 5.2. Iter = 1401 


  iteration 1401; minNextMutationTime = 1287; timeNextPopSample = 1277; popParams.size() = 2

 We are SAMPLING at time 1277



*** Looping through 5.2. Iter = 1402 


  iteration 1402; minNextMutationTime = 1288; timeNextPopSample = 1278; popParams.size() = 1

 We are SAMPLING at time 1278



*** Looping through 5.2. Iter = 1403 


  iteration 1403; minNextMutationTime = 1289; timeNextPopSample = 1279; popParams.size() = 1

 We are SAMPLING at time 1279



*** Looping through 5.2. Iter = 1404 


  iteration 1404; minNextMutationTime = 1279.38; timeNextPopSample = 1280; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1405 


  iteration 1405; minNextMutationTime = 1290; timeNextPopSample = 1280; popParams.size() = 2

 We are SAMPLING at time 1280



*** Looping through 5.2. Iter = 1406 


  iteration 1406; minNextMutationTime = 1291; timeNextPopSample = 1281; popParams.size() = 1

 We are SAMPLING at time 1281



*** Looping through 5.2. Iter = 1407 


  iteration 1407; minNextMutationTime = 1292; timeNextPopSample = 1282; popParams.size() = 1

 We are SAMPLING at time 1282



*** Looping through 5.2. Iter = 1408 


  iteration 1408; minNextMutationTime = 1293; timeNextPopSample = 1283; popParams.size() = 1

 We are SAMPLING at time 1283



*** Looping through 5.2. Iter = 1409 


  iteration 1409; minNextMutationTime = 1294; timeNextPopSample = 1284; popParams.size() = 1

 We are SAMPLING at time 1284



*** Looping through 5.2. Iter = 1410 


  iteration 1410; minNextMutationTime = 1295; timeNextPopSample = 1285; popParams.size() = 1

 We are SAMPLING at time 1285



*** Looping through 5.2. Iter = 1411 


  iteration 1411; minNextMutationTime = 1296; timeNextPopSample = 1286; popParams.size() = 1

 We are SAMPLING at time 1286



*** Looping through 5.2. Iter = 1412 


  iteration 1412; minNextMutationTime = 1286.98; timeNextPopSample = 1287; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1413 


  iteration 1413; minNextMutationTime = 1297; timeNextPopSample = 1287; popParams.size() = 2

 We are SAMPLING at time 1287



*** Looping through 5.2. Iter = 1414 


  iteration 1414; minNextMutationTime = 1298; timeNextPopSample = 1288; popParams.size() = 2

 We are SAMPLING at time 1288



*** Looping through 5.2. Iter = 1415 


  iteration 1415; minNextMutationTime = 1299; timeNextPopSample = 1289; popParams.size() = 2

 We are SAMPLING at time 1289



*** Looping through 5.2. Iter = 1416 


  iteration 1416; minNextMutationTime = 1289.37; timeNextPopSample = 1290; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1417 


  iteration 1417; minNextMutationTime = 1300; timeNextPopSample = 1290; popParams.size() = 3

 We are SAMPLING at time 1290



*** Looping through 5.2. Iter = 1418 


  iteration 1418; minNextMutationTime = 1301; timeNextPopSample = 1291; popParams.size() = 2

 We are SAMPLING at time 1291



*** Looping through 5.2. Iter = 1419 


  iteration 1419; minNextMutationTime = 1302; timeNextPopSample = 1292; popParams.size() = 2

 We are SAMPLING at time 1292



*** Looping through 5.2. Iter = 1420 


  iteration 1420; minNextMutationTime = 1303; timeNextPopSample = 1293; popParams.size() = 1

 We are SAMPLING at time 1293



*** Looping through 5.2. Iter = 1421 


  iteration 1421; minNextMutationTime = 1304; timeNextPopSample = 1294; popParams.size() = 1

 We are SAMPLING at time 1294



*** Looping through 5.2. Iter = 1422 


  iteration 1422; minNextMutationTime = 1305; timeNextPopSample = 1295; popParams.size() = 1

 We are SAMPLING at time 1295



*** Looping through 5.2. Iter = 1423 


  iteration 1423; minNextMutationTime = 1306; timeNextPopSample = 1296; popParams.size() = 1

 We are SAMPLING at time 1296



*** Looping through 5.2. Iter = 1424 


  iteration 1424; minNextMutationTime = 1307; timeNextPopSample = 1297; popParams.size() = 1

 We are SAMPLING at time 1297



*** Looping through 5.2. Iter = 1425 


  iteration 1425; minNextMutationTime = 1308; timeNextPopSample = 1298; popParams.size() = 1

 We are SAMPLING at time 1298



*** Looping through 5.2. Iter = 1426 


  iteration 1426; minNextMutationTime = 1309; timeNextPopSample = 1299; popParams.size() = 1

 We are SAMPLING at time 1299



*** Looping through 5.2. Iter = 1427 


  iteration 1427; minNextMutationTime = 1310; timeNextPopSample = 1300; popParams.size() = 1

 We are SAMPLING at time 1300



*** Looping through 5.2. Iter = 1428 


  iteration 1428; minNextMutationTime = 1311; timeNextPopSample = 1301; popParams.size() = 1

 We are SAMPLING at time 1301



*** Looping through 5.2. Iter = 1429 


  iteration 1429; minNextMutationTime = 1312; timeNextPopSample = 1302; popParams.size() = 1

 We are SAMPLING at time 1302



*** Looping through 5.2. Iter = 1430 


  iteration 1430; minNextMutationTime = 1313; timeNextPopSample = 1303; popParams.size() = 1

 We are SAMPLING at time 1303



*** Looping through 5.2. Iter = 1431 


  iteration 1431; minNextMutationTime = 1303.66; timeNextPopSample = 1304; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1432 


  iteration 1432; minNextMutationTime = 1314; timeNextPopSample = 1304; popParams.size() = 2

 We are SAMPLING at time 1304



*** Looping through 5.2. Iter = 1433 


  iteration 1433; minNextMutationTime = 1315; timeNextPopSample = 1305; popParams.size() = 2

 We are SAMPLING at time 1305



*** Looping through 5.2. Iter = 1434 


  iteration 1434; minNextMutationTime = 1316; timeNextPopSample = 1306; popParams.size() = 1

 We are SAMPLING at time 1306



*** Looping through 5.2. Iter = 1435 


  iteration 1435; minNextMutationTime = 1317; timeNextPopSample = 1307; popParams.size() = 1

 We are SAMPLING at time 1307



*** Looping through 5.2. Iter = 1436 


  iteration 1436; minNextMutationTime = 1318; timeNextPopSample = 1308; popParams.size() = 1

 We are SAMPLING at time 1308



*** Looping through 5.2. Iter = 1437 


  iteration 1437; minNextMutationTime = 1308.94; timeNextPopSample = 1309; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1438 


  iteration 1438; minNextMutationTime = 1319; timeNextPopSample = 1309; popParams.size() = 2

 We are SAMPLING at time 1309



*** Looping through 5.2. Iter = 1439 


  iteration 1439; minNextMutationTime = 1320; timeNextPopSample = 1310; popParams.size() = 2

 We are SAMPLING at time 1310



*** Looping through 5.2. Iter = 1440 


  iteration 1440; minNextMutationTime = 1321; timeNextPopSample = 1311; popParams.size() = 2

 We are SAMPLING at time 1311



*** Looping through 5.2. Iter = 1441 


  iteration 1441; minNextMutationTime = 1322; timeNextPopSample = 1312; popParams.size() = 1

 We are SAMPLING at time 1312



*** Looping through 5.2. Iter = 1442 


  iteration 1442; minNextMutationTime = 1323; timeNextPopSample = 1313; popParams.size() = 1

 We are SAMPLING at time 1313



*** Looping through 5.2. Iter = 1443 


  iteration 1443; minNextMutationTime = 1324; timeNextPopSample = 1314; popParams.size() = 1

 We are SAMPLING at time 1314



*** Looping through 5.2. Iter = 1444 


  iteration 1444; minNextMutationTime = 1325; timeNextPopSample = 1315; popParams.size() = 1

 We are SAMPLING at time 1315



*** Looping through 5.2. Iter = 1445 


  iteration 1445; minNextMutationTime = 1326; timeNextPopSample = 1316; popParams.size() = 1

 We are SAMPLING at time 1316



*** Looping through 5.2. Iter = 1446 


  iteration 1446; minNextMutationTime = 1316.08; timeNextPopSample = 1317; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1447 


  iteration 1447; minNextMutationTime = 1327; timeNextPopSample = 1317; popParams.size() = 2

 We are SAMPLING at time 1317



*** Looping through 5.2. Iter = 1448 


  iteration 1448; minNextMutationTime = 1328; timeNextPopSample = 1318; popParams.size() = 1

 We are SAMPLING at time 1318



*** Looping through 5.2. Iter = 1449 


  iteration 1449; minNextMutationTime = 1329; timeNextPopSample = 1319; popParams.size() = 1

 We are SAMPLING at time 1319



*** Looping through 5.2. Iter = 1450 


  iteration 1450; minNextMutationTime = 1330; timeNextPopSample = 1320; popParams.size() = 1

 We are SAMPLING at time 1320



*** Looping through 5.2. Iter = 1451 


  iteration 1451; minNextMutationTime = 1331; timeNextPopSample = 1321; popParams.size() = 1

 We are SAMPLING at time 1321



*** Looping through 5.2. Iter = 1452 


  iteration 1452; minNextMutationTime = 1332; timeNextPopSample = 1322; popParams.size() = 1

 We are SAMPLING at time 1322



*** Looping through 5.2. Iter = 1453 


  iteration 1453; minNextMutationTime = 1333; timeNextPopSample = 1323; popParams.size() = 1

 We are SAMPLING at time 1323



*** Looping through 5.2. Iter = 1454 


  iteration 1454; minNextMutationTime = 1323.97; timeNextPopSample = 1324; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1455 


  iteration 1455; minNextMutationTime = 1334; timeNextPopSample = 1324; popParams.size() = 2

 We are SAMPLING at time 1324



*** Looping through 5.2. Iter = 1456 


  iteration 1456; minNextMutationTime = 1335; timeNextPopSample = 1325; popParams.size() = 2

 We are SAMPLING at time 1325



*** Looping through 5.2. Iter = 1457 


  iteration 1457; minNextMutationTime = 1336; timeNextPopSample = 1326; popParams.size() = 1

 We are SAMPLING at time 1326



*** Looping through 5.2. Iter = 1458 


  iteration 1458; minNextMutationTime = 1337; timeNextPopSample = 1327; popParams.size() = 1

 We are SAMPLING at time 1327



*** Looping through 5.2. Iter = 1459 


  iteration 1459; minNextMutationTime = 1338; timeNextPopSample = 1328; popParams.size() = 1

 We are SAMPLING at time 1328



*** Looping through 5.2. Iter = 1460 


  iteration 1460; minNextMutationTime = 1339; timeNextPopSample = 1329; popParams.size() = 1

 We are SAMPLING at time 1329



*** Looping through 5.2. Iter = 1461 


  iteration 1461; minNextMutationTime = 1340; timeNextPopSample = 1330; popParams.size() = 1

 We are SAMPLING at time 1330



*** Looping through 5.2. Iter = 1462 


  iteration 1462; minNextMutationTime = 1341; timeNextPopSample = 1331; popParams.size() = 1

 We are SAMPLING at time 1331



*** Looping through 5.2. Iter = 1463 


  iteration 1463; minNextMutationTime = 1342; timeNextPopSample = 1332; popParams.size() = 1

 We are SAMPLING at time 1332



*** Looping through 5.2. Iter = 1464 


  iteration 1464; minNextMutationTime = 1343; timeNextPopSample = 1333; popParams.size() = 1

 We are SAMPLING at time 1333



*** Looping through 5.2. Iter = 1465 


  iteration 1465; minNextMutationTime = 1344; timeNextPopSample = 1334; popParams.size() = 1

 We are SAMPLING at time 1334



*** Looping through 5.2. Iter = 1466 


  iteration 1466; minNextMutationTime = 1345; timeNextPopSample = 1335; popParams.size() = 1

 We are SAMPLING at time 1335



*** Looping through 5.2. Iter = 1467 


  iteration 1467; minNextMutationTime = 1346; timeNextPopSample = 1336; popParams.size() = 1

 We are SAMPLING at time 1336



*** Looping through 5.2. Iter = 1468 


  iteration 1468; minNextMutationTime = 1347; timeNextPopSample = 1337; popParams.size() = 1

 We are SAMPLING at time 1337



*** Looping through 5.2. Iter = 1469 


  iteration 1469; minNextMutationTime = 1348; timeNextPopSample = 1338; popParams.size() = 1

 We are SAMPLING at time 1338



*** Looping through 5.2. Iter = 1470 


  iteration 1470; minNextMutationTime = 1349; timeNextPopSample = 1339; popParams.size() = 1

 We are SAMPLING at time 1339



*** Looping through 5.2. Iter = 1471 


  iteration 1471; minNextMutationTime = 1350; timeNextPopSample = 1340; popParams.size() = 1

 We are SAMPLING at time 1340



*** Looping through 5.2. Iter = 1472 


  iteration 1472; minNextMutationTime = 1351; timeNextPopSample = 1341; popParams.size() = 1

 We are SAMPLING at time 1341



*** Looping through 5.2. Iter = 1473 


  iteration 1473; minNextMutationTime = 1352; timeNextPopSample = 1342; popParams.size() = 1

 We are SAMPLING at time 1342



*** Looping through 5.2. Iter = 1474 


  iteration 1474; minNextMutationTime = 1353; timeNextPopSample = 1343; popParams.size() = 1

 We are SAMPLING at time 1343



*** Looping through 5.2. Iter = 1475 


  iteration 1475; minNextMutationTime = 1354; timeNextPopSample = 1344; popParams.size() = 1

 We are SAMPLING at time 1344



*** Looping through 5.2. Iter = 1476 


  iteration 1476; minNextMutationTime = 1355; timeNextPopSample = 1345; popParams.size() = 1

 We are SAMPLING at time 1345



*** Looping through 5.2. Iter = 1477 


  iteration 1477; minNextMutationTime = 1356; timeNextPopSample = 1346; popParams.size() = 1

 We are SAMPLING at time 1346



*** Looping through 5.2. Iter = 1478 


  iteration 1478; minNextMutationTime = 1357; timeNextPopSample = 1347; popParams.size() = 1

 We are SAMPLING at time 1347



*** Looping through 5.2. Iter = 1479 


  iteration 1479; minNextMutationTime = 1358; timeNextPopSample = 1348; popParams.size() = 1

 We are SAMPLING at time 1348



*** Looping through 5.2. Iter = 1480 


  iteration 1480; minNextMutationTime = 1359; timeNextPopSample = 1349; popParams.size() = 1

 We are SAMPLING at time 1349



*** Looping through 5.2. Iter = 1481 


  iteration 1481; minNextMutationTime = 1360; timeNextPopSample = 1350; popParams.size() = 1

 We are SAMPLING at time 1350



*** Looping through 5.2. Iter = 1482 


  iteration 1482; minNextMutationTime = 1361; timeNextPopSample = 1351; popParams.size() = 1

 We are SAMPLING at time 1351



*** Looping through 5.2. Iter = 1483 


  iteration 1483; minNextMutationTime = 1362; timeNextPopSample = 1352; popParams.size() = 1

 We are SAMPLING at time 1352



*** Looping through 5.2. Iter = 1484 


  iteration 1484; minNextMutationTime = 1363; timeNextPopSample = 1353; popParams.size() = 1

 We are SAMPLING at time 1353



*** Looping through 5.2. Iter = 1485 


  iteration 1485; minNextMutationTime = 1364; timeNextPopSample = 1354; popParams.size() = 1

 We are SAMPLING at time 1354



*** Looping through 5.2. Iter = 1486 


  iteration 1486; minNextMutationTime = 1354.71; timeNextPopSample = 1355; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1487 


  iteration 1487; minNextMutationTime = 1365; timeNextPopSample = 1355; popParams.size() = 2

 We are SAMPLING at time 1355



*** Looping through 5.2. Iter = 1488 


  iteration 1488; minNextMutationTime = 1366; timeNextPopSample = 1356; popParams.size() = 2

 We are SAMPLING at time 1356



*** Looping through 5.2. Iter = 1489 


  iteration 1489; minNextMutationTime = 1367; timeNextPopSample = 1357; popParams.size() = 1

 We are SAMPLING at time 1357



*** Looping through 5.2. Iter = 1490 


  iteration 1490; minNextMutationTime = 1368; timeNextPopSample = 1358; popParams.size() = 1

 We are SAMPLING at time 1358



*** Looping through 5.2. Iter = 1491 


  iteration 1491; minNextMutationTime = 1369; timeNextPopSample = 1359; popParams.size() = 1

 We are SAMPLING at time 1359



*** Looping through 5.2. Iter = 1492 


  iteration 1492; minNextMutationTime = 1370; timeNextPopSample = 1360; popParams.size() = 1

 We are SAMPLING at time 1360



*** Looping through 5.2. Iter = 1493 


  iteration 1493; minNextMutationTime = 1371; timeNextPopSample = 1361; popParams.size() = 1

 We are SAMPLING at time 1361



*** Looping through 5.2. Iter = 1494 


  iteration 1494; minNextMutationTime = 1372; timeNextPopSample = 1362; popParams.size() = 1

 We are SAMPLING at time 1362



*** Looping through 5.2. Iter = 1495 


  iteration 1495; minNextMutationTime = 1373; timeNextPopSample = 1363; popParams.size() = 1

 We are SAMPLING at time 1363



*** Looping through 5.2. Iter = 1496 


  iteration 1496; minNextMutationTime = 1374; timeNextPopSample = 1364; popParams.size() = 1

 We are SAMPLING at time 1364



*** Looping through 5.2. Iter = 1497 


  iteration 1497; minNextMutationTime = 1375; timeNextPopSample = 1365; popParams.size() = 1

 We are SAMPLING at time 1365



*** Looping through 5.2. Iter = 1498 


  iteration 1498; minNextMutationTime = 1376; timeNextPopSample = 1366; popParams.size() = 1

 We are SAMPLING at time 1366



*** Looping through 5.2. Iter = 1499 


  iteration 1499; minNextMutationTime = 1366.51; timeNextPopSample = 1367; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1500 


  iteration 1500; minNextMutationTime = 1377; timeNextPopSample = 1367; popParams.size() = 2

 We are SAMPLING at time 1367



*** Looping through 5.2. Iter = 1501 


  iteration 1501; minNextMutationTime = 1378; timeNextPopSample = 1368; popParams.size() = 2

 We are SAMPLING at time 1368



*** Looping through 5.2. Iter = 1502 


  iteration 1502; minNextMutationTime = 1379; timeNextPopSample = 1369; popParams.size() = 2

 We are SAMPLING at time 1369



*** Looping through 5.2. Iter = 1503 


  iteration 1503; minNextMutationTime = 1380; timeNextPopSample = 1370; popParams.size() = 2

 We are SAMPLING at time 1370



*** Looping through 5.2. Iter = 1504 


  iteration 1504; minNextMutationTime = 1381; timeNextPopSample = 1371; popParams.size() = 2

 We are SAMPLING at time 1371



*** Looping through 5.2. Iter = 1505 


  iteration 1505; minNextMutationTime = 1382; timeNextPopSample = 1372; popParams.size() = 2

 We are SAMPLING at time 1372



*** Looping through 5.2. Iter = 1506 


  iteration 1506; minNextMutationTime = 1383; timeNextPopSample = 1373; popParams.size() = 2

 We are SAMPLING at time 1373



*** Looping through 5.2. Iter = 1507 


  iteration 1507; minNextMutationTime = 1384; timeNextPopSample = 1374; popParams.size() = 2

 We are SAMPLING at time 1374



*** Looping through 5.2. Iter = 1508 


  iteration 1508; minNextMutationTime = 1385; timeNextPopSample = 1375; popParams.size() = 2

 We are SAMPLING at time 1375



*** Looping through 5.2. Iter = 1509 


  iteration 1509; minNextMutationTime = 1386; timeNextPopSample = 1376; popParams.size() = 2

 We are SAMPLING at time 1376



*** Looping through 5.2. Iter = 1510 


  iteration 1510; minNextMutationTime = 1376.47; timeNextPopSample = 1377; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1511 


  iteration 1511; minNextMutationTime = 1387; timeNextPopSample = 1377; popParams.size() = 3

 We are SAMPLING at time 1377



*** Looping through 5.2. Iter = 1512 


  iteration 1512; minNextMutationTime = 1388; timeNextPopSample = 1378; popParams.size() = 3

 We are SAMPLING at time 1378



*** Looping through 5.2. Iter = 1513 


  iteration 1513; minNextMutationTime = 1389; timeNextPopSample = 1379; popParams.size() = 3

 We are SAMPLING at time 1379



*** Looping through 5.2. Iter = 1514 


  iteration 1514; minNextMutationTime = 1390; timeNextPopSample = 1380; popParams.size() = 2

 We are SAMPLING at time 1380



*** Looping through 5.2. Iter = 1515 


  iteration 1515; minNextMutationTime = 1391; timeNextPopSample = 1381; popParams.size() = 2

 We are SAMPLING at time 1381



*** Looping through 5.2. Iter = 1516 


  iteration 1516; minNextMutationTime = 1392; timeNextPopSample = 1382; popParams.size() = 2

 We are SAMPLING at time 1382



*** Looping through 5.2. Iter = 1517 


  iteration 1517; minNextMutationTime = 1393; timeNextPopSample = 1383; popParams.size() = 2

 We are SAMPLING at time 1383



*** Looping through 5.2. Iter = 1518 


  iteration 1518; minNextMutationTime = 1394; timeNextPopSample = 1384; popParams.size() = 2

 We are SAMPLING at time 1384



*** Looping through 5.2. Iter = 1519 


  iteration 1519; minNextMutationTime = 1384.9; timeNextPopSample = 1385; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1520 


  iteration 1520; minNextMutationTime = 1395; timeNextPopSample = 1385; popParams.size() = 3

 We are SAMPLING at time 1385



*** Looping through 5.2. Iter = 1521 


  iteration 1521; minNextMutationTime = 1396; timeNextPopSample = 1386; popParams.size() = 3

 We are SAMPLING at time 1386



*** Looping through 5.2. Iter = 1522 


  iteration 1522; minNextMutationTime = 1397; timeNextPopSample = 1387; popParams.size() = 2

 We are SAMPLING at time 1387



*** Looping through 5.2. Iter = 1523 


  iteration 1523; minNextMutationTime = 1398; timeNextPopSample = 1388; popParams.size() = 1

 We are SAMPLING at time 1388



*** Looping through 5.2. Iter = 1524 


  iteration 1524; minNextMutationTime = 1399; timeNextPopSample = 1389; popParams.size() = 1

 We are SAMPLING at time 1389



*** Looping through 5.2. Iter = 1525 


  iteration 1525; minNextMutationTime = 1400; timeNextPopSample = 1390; popParams.size() = 1

 We are SAMPLING at time 1390



*** Looping through 5.2. Iter = 1526 


  iteration 1526; minNextMutationTime = 1401; timeNextPopSample = 1391; popParams.size() = 1

 We are SAMPLING at time 1391



*** Looping through 5.2. Iter = 1527 


  iteration 1527; minNextMutationTime = 1402; timeNextPopSample = 1392; popParams.size() = 1

 We are SAMPLING at time 1392



*** Looping through 5.2. Iter = 1528 


  iteration 1528; minNextMutationTime = 1403; timeNextPopSample = 1393; popParams.size() = 1

 We are SAMPLING at time 1393



*** Looping through 5.2. Iter = 1529 


  iteration 1529; minNextMutationTime = 1404; timeNextPopSample = 1394; popParams.size() = 1

 We are SAMPLING at time 1394



*** Looping through 5.2. Iter = 1530 


  iteration 1530; minNextMutationTime = 1405; timeNextPopSample = 1395; popParams.size() = 1

 We are SAMPLING at time 1395



*** Looping through 5.2. Iter = 1531 


  iteration 1531; minNextMutationTime = 1395.37; timeNextPopSample = 1396; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1532 


  iteration 1532; minNextMutationTime = 1406; timeNextPopSample = 1396; popParams.size() = 2

 We are SAMPLING at time 1396



*** Looping through 5.2. Iter = 1533 


  iteration 1533; minNextMutationTime = 1396.17; timeNextPopSample = 1397; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1534 


  iteration 1534; minNextMutationTime = 1407; timeNextPopSample = 1397; popParams.size() = 2

 We are SAMPLING at time 1397



*** Looping through 5.2. Iter = 1535 


  iteration 1535; minNextMutationTime = 1408; timeNextPopSample = 1398; popParams.size() = 2

 We are SAMPLING at time 1398



*** Looping through 5.2. Iter = 1536 


  iteration 1536; minNextMutationTime = 1409; timeNextPopSample = 1399; popParams.size() = 1

 We are SAMPLING at time 1399



*** Looping through 5.2. Iter = 1537 


  iteration 1537; minNextMutationTime = 1410; timeNextPopSample = 1400; popParams.size() = 1

 We are SAMPLING at time 1400



*** Looping through 5.2. Iter = 1538 


  iteration 1538; minNextMutationTime = 1411; timeNextPopSample = 1401; popParams.size() = 1

 We are SAMPLING at time 1401



*** Looping through 5.2. Iter = 1539 


  iteration 1539; minNextMutationTime = 1412; timeNextPopSample = 1402; popParams.size() = 1

 We are SAMPLING at time 1402



*** Looping through 5.2. Iter = 1540 


  iteration 1540; minNextMutationTime = 1413; timeNextPopSample = 1403; popParams.size() = 1

 We are SAMPLING at time 1403



*** Looping through 5.2. Iter = 1541 


  iteration 1541; minNextMutationTime = 1414; timeNextPopSample = 1404; popParams.size() = 1

 We are SAMPLING at time 1404



*** Looping through 5.2. Iter = 1542 


  iteration 1542; minNextMutationTime = 1415; timeNextPopSample = 1405; popParams.size() = 1

 We are SAMPLING at time 1405



*** Looping through 5.2. Iter = 1543 


  iteration 1543; minNextMutationTime = 1416; timeNextPopSample = 1406; popParams.size() = 1

 We are SAMPLING at time 1406



*** Looping through 5.2. Iter = 1544 


  iteration 1544; minNextMutationTime = 1417; timeNextPopSample = 1407; popParams.size() = 1

 We are SAMPLING at time 1407



*** Looping through 5.2. Iter = 1545 


  iteration 1545; minNextMutationTime = 1407.73; timeNextPopSample = 1408; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1546 


  iteration 1546; minNextMutationTime = 1418; timeNextPopSample = 1408; popParams.size() = 2

 We are SAMPLING at time 1408



*** Looping through 5.2. Iter = 1547 


  iteration 1547; minNextMutationTime = 1419; timeNextPopSample = 1409; popParams.size() = 2

 We are SAMPLING at time 1409



*** Looping through 5.2. Iter = 1548 


  iteration 1548; minNextMutationTime = 1420; timeNextPopSample = 1410; popParams.size() = 1

 We are SAMPLING at time 1410



*** Looping through 5.2. Iter = 1549 


  iteration 1549; minNextMutationTime = 1421; timeNextPopSample = 1411; popParams.size() = 1

 We are SAMPLING at time 1411



*** Looping through 5.2. Iter = 1550 


  iteration 1550; minNextMutationTime = 1411.53; timeNextPopSample = 1412; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1551 


  iteration 1551; minNextMutationTime = 1422; timeNextPopSample = 1412; popParams.size() = 2

 We are SAMPLING at time 1412



*** Looping through 5.2. Iter = 1552 


  iteration 1552; minNextMutationTime = 1423; timeNextPopSample = 1413; popParams.size() = 2

 We are SAMPLING at time 1413



*** Looping through 5.2. Iter = 1553 


  iteration 1553; minNextMutationTime = 1424; timeNextPopSample = 1414; popParams.size() = 1

 We are SAMPLING at time 1414



*** Looping through 5.2. Iter = 1554 


  iteration 1554; minNextMutationTime = 1425; timeNextPopSample = 1415; popParams.size() = 1

 We are SAMPLING at time 1415



*** Looping through 5.2. Iter = 1555 


  iteration 1555; minNextMutationTime = 1426; timeNextPopSample = 1416; popParams.size() = 1

 We are SAMPLING at time 1416



*** Looping through 5.2. Iter = 1556 


  iteration 1556; minNextMutationTime = 1427; timeNextPopSample = 1417; popParams.size() = 1

 We are SAMPLING at time 1417



*** Looping through 5.2. Iter = 1557 


  iteration 1557; minNextMutationTime = 1428; timeNextPopSample = 1418; popParams.size() = 1

 We are SAMPLING at time 1418



*** Looping through 5.2. Iter = 1558 


  iteration 1558; minNextMutationTime = 1429; timeNextPopSample = 1419; popParams.size() = 1

 We are SAMPLING at time 1419



*** Looping through 5.2. Iter = 1559 


  iteration 1559; minNextMutationTime = 1430; timeNextPopSample = 1420; popParams.size() = 1

 We are SAMPLING at time 1420



*** Looping through 5.2. Iter = 1560 


  iteration 1560; minNextMutationTime = 1431; timeNextPopSample = 1421; popParams.size() = 1

 We are SAMPLING at time 1421



*** Looping through 5.2. Iter = 1561 


  iteration 1561; minNextMutationTime = 1432; timeNextPopSample = 1422; popParams.size() = 1

 We are SAMPLING at time 1422



*** Looping through 5.2. Iter = 1562 


  iteration 1562; minNextMutationTime = 1433; timeNextPopSample = 1423; popParams.size() = 1

 We are SAMPLING at time 1423



*** Looping through 5.2. Iter = 1563 


  iteration 1563; minNextMutationTime = 1434; timeNextPopSample = 1424; popParams.size() = 1

 We are SAMPLING at time 1424



*** Looping through 5.2. Iter = 1564 


  iteration 1564; minNextMutationTime = 1435; timeNextPopSample = 1425; popParams.size() = 1

 We are SAMPLING at time 1425



*** Looping through 5.2. Iter = 1565 


  iteration 1565; minNextMutationTime = 1436; timeNextPopSample = 1426; popParams.size() = 1

 We are SAMPLING at time 1426



*** Looping through 5.2. Iter = 1566 


  iteration 1566; minNextMutationTime = 1437; timeNextPopSample = 1427; popParams.size() = 1

 We are SAMPLING at time 1427



*** Looping through 5.2. Iter = 1567 


  iteration 1567; minNextMutationTime = 1438; timeNextPopSample = 1428; popParams.size() = 1

 We are SAMPLING at time 1428



*** Looping through 5.2. Iter = 1568 


  iteration 1568; minNextMutationTime = 1439; timeNextPopSample = 1429; popParams.size() = 1

 We are SAMPLING at time 1429



*** Looping through 5.2. Iter = 1569 


  iteration 1569; minNextMutationTime = 1440; timeNextPopSample = 1430; popParams.size() = 1

 We are SAMPLING at time 1430



*** Looping through 5.2. Iter = 1570 


  iteration 1570; minNextMutationTime = 1430.8; timeNextPopSample = 1431; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1571 


  iteration 1571; minNextMutationTime = 1441; timeNextPopSample = 1431; popParams.size() = 2

 We are SAMPLING at time 1431



*** Looping through 5.2. Iter = 1572 


  iteration 1572; minNextMutationTime = 1442; timeNextPopSample = 1432; popParams.size() = 2

 We are SAMPLING at time 1432



*** Looping through 5.2. Iter = 1573 


  iteration 1573; minNextMutationTime = 1443; timeNextPopSample = 1433; popParams.size() = 2

 We are SAMPLING at time 1433



*** Looping through 5.2. Iter = 1574 


  iteration 1574; minNextMutationTime = 1444; timeNextPopSample = 1434; popParams.size() = 2

 We are SAMPLING at time 1434



*** Looping through 5.2. Iter = 1575 


  iteration 1575; minNextMutationTime = 1445; timeNextPopSample = 1435; popParams.size() = 2

 We are SAMPLING at time 1435



*** Looping through 5.2. Iter = 1576 


  iteration 1576; minNextMutationTime = 1446; timeNextPopSample = 1436; popParams.size() = 2

 We are SAMPLING at time 1436



*** Looping through 5.2. Iter = 1577 


  iteration 1577; minNextMutationTime = 1436.46; timeNextPopSample = 1437; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1578 


  iteration 1578; minNextMutationTime = 1447; timeNextPopSample = 1437; popParams.size() = 3

 We are SAMPLING at time 1437



*** Looping through 5.2. Iter = 1579 


  iteration 1579; minNextMutationTime = 1448; timeNextPopSample = 1438; popParams.size() = 3

 We are SAMPLING at time 1438



*** Looping through 5.2. Iter = 1580 


  iteration 1580; minNextMutationTime = 1449; timeNextPopSample = 1439; popParams.size() = 3

 We are SAMPLING at time 1439



*** Looping through 5.2. Iter = 1581 


  iteration 1581; minNextMutationTime = 1450; timeNextPopSample = 1440; popParams.size() = 3

 We are SAMPLING at time 1440



*** Looping through 5.2. Iter = 1582 


  iteration 1582; minNextMutationTime = 1451; timeNextPopSample = 1441; popParams.size() = 3

 We are SAMPLING at time 1441



*** Looping through 5.2. Iter = 1583 


  iteration 1583; minNextMutationTime = 1452; timeNextPopSample = 1442; popParams.size() = 3

 We are SAMPLING at time 1442



*** Looping through 5.2. Iter = 1584 


  iteration 1584; minNextMutationTime = 1453; timeNextPopSample = 1443; popParams.size() = 3

 We are SAMPLING at time 1443



*** Looping through 5.2. Iter = 1585 


  iteration 1585; minNextMutationTime = 1454; timeNextPopSample = 1444; popParams.size() = 2

 We are SAMPLING at time 1444



*** Looping through 5.2. Iter = 1586 


  iteration 1586; minNextMutationTime = 1455; timeNextPopSample = 1445; popParams.size() = 2

 We are SAMPLING at time 1445



*** Looping through 5.2. Iter = 1587 


  iteration 1587; minNextMutationTime = 1456; timeNextPopSample = 1446; popParams.size() = 1

 We are SAMPLING at time 1446



*** Looping through 5.2. Iter = 1588 


  iteration 1588; minNextMutationTime = 1446.57; timeNextPopSample = 1447; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1589 


  iteration 1589; minNextMutationTime = 1457; timeNextPopSample = 1447; popParams.size() = 2

 We are SAMPLING at time 1447



*** Looping through 5.2. Iter = 1590 


  iteration 1590; minNextMutationTime = 1458; timeNextPopSample = 1448; popParams.size() = 1

 We are SAMPLING at time 1448



*** Looping through 5.2. Iter = 1591 


  iteration 1591; minNextMutationTime = 1459; timeNextPopSample = 1449; popParams.size() = 1

 We are SAMPLING at time 1449



*** Looping through 5.2. Iter = 1592 


  iteration 1592; minNextMutationTime = 1460; timeNextPopSample = 1450; popParams.size() = 1

 We are SAMPLING at time 1450



*** Looping through 5.2. Iter = 1593 


  iteration 1593; minNextMutationTime = 1461; timeNextPopSample = 1451; popParams.size() = 1

 We are SAMPLING at time 1451



*** Looping through 5.2. Iter = 1594 


  iteration 1594; minNextMutationTime = 1462; timeNextPopSample = 1452; popParams.size() = 1

 We are SAMPLING at time 1452



*** Looping through 5.2. Iter = 1595 


  iteration 1595; minNextMutationTime = 1463; timeNextPopSample = 1453; popParams.size() = 1

 We are SAMPLING at time 1453



*** Looping through 5.2. Iter = 1596 


  iteration 1596; minNextMutationTime = 1464; timeNextPopSample = 1454; popParams.size() = 1

 We are SAMPLING at time 1454



*** Looping through 5.2. Iter = 1597 


  iteration 1597; minNextMutationTime = 1465; timeNextPopSample = 1455; popParams.size() = 1

 We are SAMPLING at time 1455



*** Looping through 5.2. Iter = 1598 


  iteration 1598; minNextMutationTime = 1466; timeNextPopSample = 1456; popParams.size() = 1

 We are SAMPLING at time 1456



*** Looping through 5.2. Iter = 1599 


  iteration 1599; minNextMutationTime = 1467; timeNextPopSample = 1457; popParams.size() = 1

 We are SAMPLING at time 1457



*** Looping through 5.2. Iter = 1600 


  iteration 1600; minNextMutationTime = 1468; timeNextPopSample = 1458; popParams.size() = 1

 We are SAMPLING at time 1458



*** Looping through 5.2. Iter = 1601 


  iteration 1601; minNextMutationTime = 1458.83; timeNextPopSample = 1459; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1602 


  iteration 1602; minNextMutationTime = 1469; timeNextPopSample = 1459; popParams.size() = 2

 We are SAMPLING at time 1459



*** Looping through 5.2. Iter = 1603 


  iteration 1603; minNextMutationTime = 1470; timeNextPopSample = 1460; popParams.size() = 2

 We are SAMPLING at time 1460



*** Looping through 5.2. Iter = 1604 


  iteration 1604; minNextMutationTime = 1471; timeNextPopSample = 1461; popParams.size() = 1

 We are SAMPLING at time 1461



*** Looping through 5.2. Iter = 1605 


  iteration 1605; minNextMutationTime = 1472; timeNextPopSample = 1462; popParams.size() = 1

 We are SAMPLING at time 1462



*** Looping through 5.2. Iter = 1606 


  iteration 1606; minNextMutationTime = 1473; timeNextPopSample = 1463; popParams.size() = 1

 We are SAMPLING at time 1463



*** Looping through 5.2. Iter = 1607 


  iteration 1607; minNextMutationTime = 1474; timeNextPopSample = 1464; popParams.size() = 1

 We are SAMPLING at time 1464



*** Looping through 5.2. Iter = 1608 


  iteration 1608; minNextMutationTime = 1475; timeNextPopSample = 1465; popParams.size() = 1

 We are SAMPLING at time 1465



*** Looping through 5.2. Iter = 1609 


  iteration 1609; minNextMutationTime = 1476; timeNextPopSample = 1466; popParams.size() = 1

 We are SAMPLING at time 1466



*** Looping through 5.2. Iter = 1610 


  iteration 1610; minNextMutationTime = 1466.22; timeNextPopSample = 1467; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1611 


  iteration 1611; minNextMutationTime = 1477; timeNextPopSample = 1467; popParams.size() = 2

 We are SAMPLING at time 1467



*** Looping through 5.2. Iter = 1612 


  iteration 1612; minNextMutationTime = 1467.56; timeNextPopSample = 1468; popParams.size() = 2

     Mutated to existing species 1 (Genotype = 0000000000000000000000000000000000000000000000000000000000001000; sp_id = 8)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 8)
 New popSize = 1



*** Looping through 5.2. Iter = 1613 


  iteration 1613; minNextMutationTime = 1478; timeNextPopSample = 1468; popParams.size() = 2

 We are SAMPLING at time 1468



*** Looping through 5.2. Iter = 1614 


  iteration 1614; minNextMutationTime = 1479; timeNextPopSample = 1469; popParams.size() = 2

 We are SAMPLING at time 1469



*** Looping through 5.2. Iter = 1615 


  iteration 1615; minNextMutationTime = 1480; timeNextPopSample = 1470; popParams.size() = 2

 We are SAMPLING at time 1470



*** Looping through 5.2. Iter = 1616 


  iteration 1616; minNextMutationTime = 1481; timeNextPopSample = 1471; popParams.size() = 2

 We are SAMPLING at time 1471



*** Looping through 5.2. Iter = 1617 


  iteration 1617; minNextMutationTime = 1482; timeNextPopSample = 1472; popParams.size() = 2

 We are SAMPLING at time 1472



*** Looping through 5.2. Iter = 1618 


  iteration 1618; minNextMutationTime = 1483; timeNextPopSample = 1473; popParams.size() = 2

 We are SAMPLING at time 1473



*** Looping through 5.2. Iter = 1619 


  iteration 1619; minNextMutationTime = 1484; timeNextPopSample = 1474; popParams.size() = 2

 We are SAMPLING at time 1474



*** Looping through 5.2. Iter = 1620 


  iteration 1620; minNextMutationTime = 1485; timeNextPopSample = 1475; popParams.size() = 2

 We are SAMPLING at time 1475



*** Looping through 5.2. Iter = 1621 


  iteration 1621; minNextMutationTime = 1486; timeNextPopSample = 1476; popParams.size() = 2

 We are SAMPLING at time 1476



*** Looping through 5.2. Iter = 1622 


  iteration 1622; minNextMutationTime = 1487; timeNextPopSample = 1477; popParams.size() = 2

 We are SAMPLING at time 1477



*** Looping through 5.2. Iter = 1623 


  iteration 1623; minNextMutationTime = 1488; timeNextPopSample = 1478; popParams.size() = 2

 We are SAMPLING at time 1478



*** Looping through 5.2. Iter = 1624 


  iteration 1624; minNextMutationTime = 1489; timeNextPopSample = 1479; popParams.size() = 2

 We are SAMPLING at time 1479



*** Looping through 5.2. Iter = 1625 


  iteration 1625; minNextMutationTime = 1490; timeNextPopSample = 1480; popParams.size() = 2

 We are SAMPLING at time 1480



*** Looping through 5.2. Iter = 1626 


  iteration 1626; minNextMutationTime = 1491; timeNextPopSample = 1481; popParams.size() = 1

 We are SAMPLING at time 1481



*** Looping through 5.2. Iter = 1627 


  iteration 1627; minNextMutationTime = 1492; timeNextPopSample = 1482; popParams.size() = 1

 We are SAMPLING at time 1482



*** Looping through 5.2. Iter = 1628 


  iteration 1628; minNextMutationTime = 1493; timeNextPopSample = 1483; popParams.size() = 1

 We are SAMPLING at time 1483



*** Looping through 5.2. Iter = 1629 


  iteration 1629; minNextMutationTime = 1494; timeNextPopSample = 1484; popParams.size() = 1

 We are SAMPLING at time 1484



*** Looping through 5.2. Iter = 1630 


  iteration 1630; minNextMutationTime = 1495; timeNextPopSample = 1485; popParams.size() = 1

 We are SAMPLING at time 1485



*** Looping through 5.2. Iter = 1631 


  iteration 1631; minNextMutationTime = 1496; timeNextPopSample = 1486; popParams.size() = 1

 We are SAMPLING at time 1486



*** Looping through 5.2. Iter = 1632 


  iteration 1632; minNextMutationTime = 1497; timeNextPopSample = 1487; popParams.size() = 1

 We are SAMPLING at time 1487



*** Looping through 5.2. Iter = 1633 


  iteration 1633; minNextMutationTime = 1498; timeNextPopSample = 1488; popParams.size() = 1

 We are SAMPLING at time 1488



*** Looping through 5.2. Iter = 1634 


  iteration 1634; minNextMutationTime = 1499; timeNextPopSample = 1489; popParams.size() = 1

 We are SAMPLING at time 1489



*** Looping through 5.2. Iter = 1635 


  iteration 1635; minNextMutationTime = 1500; timeNextPopSample = 1490; popParams.size() = 1

 We are SAMPLING at time 1490



*** Looping through 5.2. Iter = 1636 


  iteration 1636; minNextMutationTime = 1490.15; timeNextPopSample = 1491; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1637 


  iteration 1637; minNextMutationTime = 1490.23; timeNextPopSample = 1491; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1638 


  iteration 1638; minNextMutationTime = 1501; timeNextPopSample = 1491; popParams.size() = 3

 We are SAMPLING at time 1491



*** Looping through 5.2. Iter = 1639 


  iteration 1639; minNextMutationTime = 1491.05; timeNextPopSample = 1492; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1640 


  iteration 1640; minNextMutationTime = 1491.6; timeNextPopSample = 1492; popParams.size() = 3

     Mutated to existing species 1 (Genotype = 0000000000000000000000000000000000000000000000000000000001000000; sp_id = 64)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 64)
 New popSize = 2



*** Looping through 5.2. Iter = 1641 


  iteration 1641; minNextMutationTime = 1502; timeNextPopSample = 1492; popParams.size() = 3

 We are SAMPLING at time 1492



*** Looping through 5.2. Iter = 1642 


  iteration 1642; minNextMutationTime = 1503; timeNextPopSample = 1493; popParams.size() = 2

 We are SAMPLING at time 1493



*** Looping through 5.2. Iter = 1643 


  iteration 1643; minNextMutationTime = 1504; timeNextPopSample = 1494; popParams.size() = 1

 We are SAMPLING at time 1494



*** Looping through 5.2. Iter = 1644 


  iteration 1644; minNextMutationTime = 1494.09; timeNextPopSample = 1495; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1645 


  iteration 1645; minNextMutationTime = 1505; timeNextPopSample = 1495; popParams.size() = 2

 We are SAMPLING at time 1495



*** Looping through 5.2. Iter = 1646 


  iteration 1646; minNextMutationTime = 1506; timeNextPopSample = 1496; popParams.size() = 1

 We are SAMPLING at time 1496



*** Looping through 5.2. Iter = 1647 


  iteration 1647; minNextMutationTime = 1507; timeNextPopSample = 1497; popParams.size() = 1

 We are SAMPLING at time 1497



*** Looping through 5.2. Iter = 1648 


  iteration 1648; minNextMutationTime = 1508; timeNextPopSample = 1498; popParams.size() = 1

 We are SAMPLING at time 1498



*** Looping through 5.2. Iter = 1649 


  iteration 1649; minNextMutationTime = 1509; timeNextPopSample = 1499; popParams.size() = 1

 We are SAMPLING at time 1499



*** Looping through 5.2. Iter = 1650 


  iteration 1650; minNextMutationTime = 1510; timeNextPopSample = 1500; popParams.size() = 1

 We are SAMPLING at time 1500



*** Looping through 5.2. Iter = 1651 


  iteration 1651; minNextMutationTime = 1511; timeNextPopSample = 1501; popParams.size() = 1

 We are SAMPLING at time 1501



*** Looping through 5.2. Iter = 1652 


  iteration 1652; minNextMutationTime = 1512; timeNextPopSample = 1502; popParams.size() = 1

 We are SAMPLING at time 1502



*** Looping through 5.2. Iter = 1653 


  iteration 1653; minNextMutationTime = 1513; timeNextPopSample = 1503; popParams.size() = 1

 We are SAMPLING at time 1503



*** Looping through 5.2. Iter = 1654 


  iteration 1654; minNextMutationTime = 1503.82; timeNextPopSample = 1504; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1655 


  iteration 1655; minNextMutationTime = 1514; timeNextPopSample = 1504; popParams.size() = 2

 We are SAMPLING at time 1504



*** Looping through 5.2. Iter = 1656 


  iteration 1656; minNextMutationTime = 1515; timeNextPopSample = 1505; popParams.size() = 2

 We are SAMPLING at time 1505



*** Looping through 5.2. Iter = 1657 


  iteration 1657; minNextMutationTime = 1516; timeNextPopSample = 1506; popParams.size() = 1

 We are SAMPLING at time 1506



*** Looping through 5.2. Iter = 1658 


  iteration 1658; minNextMutationTime = 1517; timeNextPopSample = 1507; popParams.size() = 1

 We are SAMPLING at time 1507



*** Looping through 5.2. Iter = 1659 


  iteration 1659; minNextMutationTime = 1518; timeNextPopSample = 1508; popParams.size() = 1

 We are SAMPLING at time 1508



*** Looping through 5.2. Iter = 1660 


  iteration 1660; minNextMutationTime = 1519; timeNextPopSample = 1509; popParams.size() = 1

 We are SAMPLING at time 1509



*** Looping through 5.2. Iter = 1661 


  iteration 1661; minNextMutationTime = 1520; timeNextPopSample = 1510; popParams.size() = 1

 We are SAMPLING at time 1510



*** Looping through 5.2. Iter = 1662 


  iteration 1662; minNextMutationTime = 1521; timeNextPopSample = 1511; popParams.size() = 1

 We are SAMPLING at time 1511



*** Looping through 5.2. Iter = 1663 


  iteration 1663; minNextMutationTime = 1522; timeNextPopSample = 1512; popParams.size() = 1

 We are SAMPLING at time 1512



*** Looping through 5.2. Iter = 1664 


  iteration 1664; minNextMutationTime = 1523; timeNextPopSample = 1513; popParams.size() = 1

 We are SAMPLING at time 1513



*** Looping through 5.2. Iter = 1665 


  iteration 1665; minNextMutationTime = 1524; timeNextPopSample = 1514; popParams.size() = 1

 We are SAMPLING at time 1514



*** Looping through 5.2. Iter = 1666 


  iteration 1666; minNextMutationTime = 1525; timeNextPopSample = 1515; popParams.size() = 1

 We are SAMPLING at time 1515



*** Looping through 5.2. Iter = 1667 


  iteration 1667; minNextMutationTime = 1526; timeNextPopSample = 1516; popParams.size() = 1

 We are SAMPLING at time 1516



*** Looping through 5.2. Iter = 1668 


  iteration 1668; minNextMutationTime = 1516.52; timeNextPopSample = 1517; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1669 


  iteration 1669; minNextMutationTime = 1527; timeNextPopSample = 1517; popParams.size() = 2

 We are SAMPLING at time 1517



*** Looping through 5.2. Iter = 1670 


  iteration 1670; minNextMutationTime = 1528; timeNextPopSample = 1518; popParams.size() = 2

 We are SAMPLING at time 1518



*** Looping through 5.2. Iter = 1671 


  iteration 1671; minNextMutationTime = 1529; timeNextPopSample = 1519; popParams.size() = 2

 We are SAMPLING at time 1519



*** Looping through 5.2. Iter = 1672 


  iteration 1672; minNextMutationTime = 1530; timeNextPopSample = 1520; popParams.size() = 2

 We are SAMPLING at time 1520



*** Looping through 5.2. Iter = 1673 


  iteration 1673; minNextMutationTime = 1531; timeNextPopSample = 1521; popParams.size() = 2

 We are SAMPLING at time 1521



*** Looping through 5.2. Iter = 1674 


  iteration 1674; minNextMutationTime = 1532; timeNextPopSample = 1522; popParams.size() = 2

 We are SAMPLING at time 1522



*** Looping through 5.2. Iter = 1675 


  iteration 1675; minNextMutationTime = 1533; timeNextPopSample = 1523; popParams.size() = 2

 We are SAMPLING at time 1523



*** Looping through 5.2. Iter = 1676 


  iteration 1676; minNextMutationTime = 1534; timeNextPopSample = 1524; popParams.size() = 2

 We are SAMPLING at time 1524



*** Looping through 5.2. Iter = 1677 


  iteration 1677; minNextMutationTime = 1535; timeNextPopSample = 1525; popParams.size() = 2

 We are SAMPLING at time 1525



*** Looping through 5.2. Iter = 1678 


  iteration 1678; minNextMutationTime = 1536; timeNextPopSample = 1526; popParams.size() = 2

 We are SAMPLING at time 1526



*** Looping through 5.2. Iter = 1679 


  iteration 1679; minNextMutationTime = 1526.12; timeNextPopSample = 1527; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1680 


  iteration 1680; minNextMutationTime = 1537; timeNextPopSample = 1527; popParams.size() = 3

 We are SAMPLING at time 1527



*** Looping through 5.2. Iter = 1681 


  iteration 1681; minNextMutationTime = 1538; timeNextPopSample = 1528; popParams.size() = 3

 We are SAMPLING at time 1528



*** Looping through 5.2. Iter = 1682 


  iteration 1682; minNextMutationTime = 1539; timeNextPopSample = 1529; popParams.size() = 3

 We are SAMPLING at time 1529



*** Looping through 5.2. Iter = 1683 


  iteration 1683; minNextMutationTime = 1540; timeNextPopSample = 1530; popParams.size() = 3

 We are SAMPLING at time 1530



*** Looping through 5.2. Iter = 1684 


  iteration 1684; minNextMutationTime = 1541; timeNextPopSample = 1531; popParams.size() = 2

 We are SAMPLING at time 1531



*** Looping through 5.2. Iter = 1685 


  iteration 1685; minNextMutationTime = 1542; timeNextPopSample = 1532; popParams.size() = 2

 We are SAMPLING at time 1532



*** Looping through 5.2. Iter = 1686 


  iteration 1686; minNextMutationTime = 1543; timeNextPopSample = 1533; popParams.size() = 2

 We are SAMPLING at time 1533



*** Looping through 5.2. Iter = 1687 


  iteration 1687; minNextMutationTime = 1544; timeNextPopSample = 1534; popParams.size() = 2

 We are SAMPLING at time 1534



*** Looping through 5.2. Iter = 1688 


  iteration 1688; minNextMutationTime = 1545; timeNextPopSample = 1535; popParams.size() = 2

 We are SAMPLING at time 1535



*** Looping through 5.2. Iter = 1689 


  iteration 1689; minNextMutationTime = 1546; timeNextPopSample = 1536; popParams.size() = 2

 We are SAMPLING at time 1536



*** Looping through 5.2. Iter = 1690 


  iteration 1690; minNextMutationTime = 1547; timeNextPopSample = 1537; popParams.size() = 2

 We are SAMPLING at time 1537



*** Looping through 5.2. Iter = 1691 


  iteration 1691; minNextMutationTime = 1548; timeNextPopSample = 1538; popParams.size() = 2

 We are SAMPLING at time 1538



*** Looping through 5.2. Iter = 1692 


  iteration 1692; minNextMutationTime = 1549; timeNextPopSample = 1539; popParams.size() = 2

 We are SAMPLING at time 1539



*** Looping through 5.2. Iter = 1693 


  iteration 1693; minNextMutationTime = 1550; timeNextPopSample = 1540; popParams.size() = 2

 We are SAMPLING at time 1540



*** Looping through 5.2. Iter = 1694 


  iteration 1694; minNextMutationTime = 1551; timeNextPopSample = 1541; popParams.size() = 2

 We are SAMPLING at time 1541



*** Looping through 5.2. Iter = 1695 


  iteration 1695; minNextMutationTime = 1552; timeNextPopSample = 1542; popParams.size() = 2

 We are SAMPLING at time 1542



*** Looping through 5.2. Iter = 1696 


  iteration 1696; minNextMutationTime = 1553; timeNextPopSample = 1543; popParams.size() = 2

 We are SAMPLING at time 1543



*** Looping through 5.2. Iter = 1697 


  iteration 1697; minNextMutationTime = 1543.3; timeNextPopSample = 1544; popParams.size() = 2

     Mutated to existing species 1 (Genotype = 0000000000000000000000000000000000000000000000000000000001000000; sp_id = 64)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 64)
 New popSize = 23



*** Looping through 5.2. Iter = 1698 


  iteration 1698; minNextMutationTime = 1554; timeNextPopSample = 1544; popParams.size() = 2

 We are SAMPLING at time 1544



*** Looping through 5.2. Iter = 1699 


  iteration 1699; minNextMutationTime = 1555; timeNextPopSample = 1545; popParams.size() = 2

 We are SAMPLING at time 1545



*** Looping through 5.2. Iter = 1700 


  iteration 1700; minNextMutationTime = 1556; timeNextPopSample = 1546; popParams.size() = 2

 We are SAMPLING at time 1546



*** Looping through 5.2. Iter = 1701 


  iteration 1701; minNextMutationTime = 1557; timeNextPopSample = 1547; popParams.size() = 2

 We are SAMPLING at time 1547



*** Looping through 5.2. Iter = 1702 


  iteration 1702; minNextMutationTime = 1558; timeNextPopSample = 1548; popParams.size() = 2

 We are SAMPLING at time 1548



*** Looping through 5.2. Iter = 1703 


  iteration 1703; minNextMutationTime = 1559; timeNextPopSample = 1549; popParams.size() = 2

 We are SAMPLING at time 1549



*** Looping through 5.2. Iter = 1704 


  iteration 1704; minNextMutationTime = 1560; timeNextPopSample = 1550; popParams.size() = 2

 We are SAMPLING at time 1550



*** Looping through 5.2. Iter = 1705 


  iteration 1705; minNextMutationTime = 1561; timeNextPopSample = 1551; popParams.size() = 2

 We are SAMPLING at time 1551



*** Looping through 5.2. Iter = 1706 


  iteration 1706; minNextMutationTime = 1562; timeNextPopSample = 1552; popParams.size() = 2

 We are SAMPLING at time 1552



*** Looping through 5.2. Iter = 1707 


  iteration 1707; minNextMutationTime = 1563; timeNextPopSample = 1553; popParams.size() = 2

 We are SAMPLING at time 1553



*** Looping through 5.2. Iter = 1708 


  iteration 1708; minNextMutationTime = 1564; timeNextPopSample = 1554; popParams.size() = 2

 We are SAMPLING at time 1554



*** Looping through 5.2. Iter = 1709 


  iteration 1709; minNextMutationTime = 1565; timeNextPopSample = 1555; popParams.size() = 2

 We are SAMPLING at time 1555



*** Looping through 5.2. Iter = 1710 


  iteration 1710; minNextMutationTime = 1566; timeNextPopSample = 1556; popParams.size() = 2

 We are SAMPLING at time 1556



*** Looping through 5.2. Iter = 1711 


  iteration 1711; minNextMutationTime = 1556.18; timeNextPopSample = 1557; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1712 


  iteration 1712; minNextMutationTime = 1567; timeNextPopSample = 1557; popParams.size() = 3

 We are SAMPLING at time 1557



*** Looping through 5.2. Iter = 1713 


  iteration 1713; minNextMutationTime = 1568; timeNextPopSample = 1558; popParams.size() = 2

 We are SAMPLING at time 1558



*** Looping through 5.2. Iter = 1714 


  iteration 1714; minNextMutationTime = 1569; timeNextPopSample = 1559; popParams.size() = 2

 We are SAMPLING at time 1559



*** Looping through 5.2. Iter = 1715 


  iteration 1715; minNextMutationTime = 1570; timeNextPopSample = 1560; popParams.size() = 2

 We are SAMPLING at time 1560



*** Looping through 5.2. Iter = 1716 


  iteration 1716; minNextMutationTime = 1571; timeNextPopSample = 1561; popParams.size() = 1

 We are SAMPLING at time 1561



*** Looping through 5.2. Iter = 1717 


  iteration 1717; minNextMutationTime = 1572; timeNextPopSample = 1562; popParams.size() = 1

 We are SAMPLING at time 1562



*** Looping through 5.2. Iter = 1718 


  iteration 1718; minNextMutationTime = 1573; timeNextPopSample = 1563; popParams.size() = 1

 We are SAMPLING at time 1563



*** Looping through 5.2. Iter = 1719 


  iteration 1719; minNextMutationTime = 1574; timeNextPopSample = 1564; popParams.size() = 1

 We are SAMPLING at time 1564



*** Looping through 5.2. Iter = 1720 


  iteration 1720; minNextMutationTime = 1575; timeNextPopSample = 1565; popParams.size() = 1

 We are SAMPLING at time 1565



*** Looping through 5.2. Iter = 1721 


  iteration 1721; minNextMutationTime = 1576; timeNextPopSample = 1566; popParams.size() = 1

 We are SAMPLING at time 1566



*** Looping through 5.2. Iter = 1722 


  iteration 1722; minNextMutationTime = 1566.34; timeNextPopSample = 1567; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1723 


  iteration 1723; minNextMutationTime = 1577; timeNextPopSample = 1567; popParams.size() = 2

 We are SAMPLING at time 1567



*** Looping through 5.2. Iter = 1724 


  iteration 1724; minNextMutationTime = 1578; timeNextPopSample = 1568; popParams.size() = 2

 We are SAMPLING at time 1568



*** Looping through 5.2. Iter = 1725 


  iteration 1725; minNextMutationTime = 1579; timeNextPopSample = 1569; popParams.size() = 1

 We are SAMPLING at time 1569



*** Looping through 5.2. Iter = 1726 


  iteration 1726; minNextMutationTime = 1580; timeNextPopSample = 1570; popParams.size() = 1

 We are SAMPLING at time 1570



*** Looping through 5.2. Iter = 1727 


  iteration 1727; minNextMutationTime = 1570.49; timeNextPopSample = 1571; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1728 


  iteration 1728; minNextMutationTime = 1581; timeNextPopSample = 1571; popParams.size() = 2

 We are SAMPLING at time 1571



*** Looping through 5.2. Iter = 1729 


  iteration 1729; minNextMutationTime = 1582; timeNextPopSample = 1572; popParams.size() = 2

 We are SAMPLING at time 1572



*** Looping through 5.2. Iter = 1730 


  iteration 1730; minNextMutationTime = 1583; timeNextPopSample = 1573; popParams.size() = 2

 We are SAMPLING at time 1573



*** Looping through 5.2. Iter = 1731 


  iteration 1731; minNextMutationTime = 1584; timeNextPopSample = 1574; popParams.size() = 1

 We are SAMPLING at time 1574



*** Looping through 5.2. Iter = 1732 


  iteration 1732; minNextMutationTime = 1585; timeNextPopSample = 1575; popParams.size() = 1

 We are SAMPLING at time 1575



*** Looping through 5.2. Iter = 1733 


  iteration 1733; minNextMutationTime = 1586; timeNextPopSample = 1576; popParams.size() = 1

 We are SAMPLING at time 1576



*** Looping through 5.2. Iter = 1734 


  iteration 1734; minNextMutationTime = 1587; timeNextPopSample = 1577; popParams.size() = 1

 We are SAMPLING at time 1577



*** Looping through 5.2. Iter = 1735 


  iteration 1735; minNextMutationTime = 1588; timeNextPopSample = 1578; popParams.size() = 1

 We are SAMPLING at time 1578



*** Looping through 5.2. Iter = 1736 


  iteration 1736; minNextMutationTime = 1589; timeNextPopSample = 1579; popParams.size() = 1

 We are SAMPLING at time 1579



*** Looping through 5.2. Iter = 1737 


  iteration 1737; minNextMutationTime = 1590; timeNextPopSample = 1580; popParams.size() = 1

 We are SAMPLING at time 1580



*** Looping through 5.2. Iter = 1738 


  iteration 1738; minNextMutationTime = 1591; timeNextPopSample = 1581; popParams.size() = 1

 We are SAMPLING at time 1581



*** Looping through 5.2. Iter = 1739 


  iteration 1739; minNextMutationTime = 1581.91; timeNextPopSample = 1582; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1740 


  iteration 1740; minNextMutationTime = 1592; timeNextPopSample = 1582; popParams.size() = 2

 We are SAMPLING at time 1582



*** Looping through 5.2. Iter = 1741 


  iteration 1741; minNextMutationTime = 1593; timeNextPopSample = 1583; popParams.size() = 2

 We are SAMPLING at time 1583



*** Looping through 5.2. Iter = 1742 


  iteration 1742; minNextMutationTime = 1594; timeNextPopSample = 1584; popParams.size() = 1

 We are SAMPLING at time 1584



*** Looping through 5.2. Iter = 1743 


  iteration 1743; minNextMutationTime = 1595; timeNextPopSample = 1585; popParams.size() = 1

 We are SAMPLING at time 1585



*** Looping through 5.2. Iter = 1744 


  iteration 1744; minNextMutationTime = 1596; timeNextPopSample = 1586; popParams.size() = 1

 We are SAMPLING at time 1586



*** Looping through 5.2. Iter = 1745 


  iteration 1745; minNextMutationTime = 1597; timeNextPopSample = 1587; popParams.size() = 1

 We are SAMPLING at time 1587



*** Looping through 5.2. Iter = 1746 


  iteration 1746; minNextMutationTime = 1598; timeNextPopSample = 1588; popParams.size() = 1

 We are SAMPLING at time 1588



*** Looping through 5.2. Iter = 1747 


  iteration 1747; minNextMutationTime = 1599; timeNextPopSample = 1589; popParams.size() = 1

 We are SAMPLING at time 1589



*** Looping through 5.2. Iter = 1748 


  iteration 1748; minNextMutationTime = 1600; timeNextPopSample = 1590; popParams.size() = 1

 We are SAMPLING at time 1590



*** Looping through 5.2. Iter = 1749 


  iteration 1749; minNextMutationTime = 1601; timeNextPopSample = 1591; popParams.size() = 1

 We are SAMPLING at time 1591



*** Looping through 5.2. Iter = 1750 


  iteration 1750; minNextMutationTime = 1602; timeNextPopSample = 1592; popParams.size() = 1

 We are SAMPLING at time 1592



*** Looping through 5.2. Iter = 1751 


  iteration 1751; minNextMutationTime = 1603; timeNextPopSample = 1593; popParams.size() = 1

 We are SAMPLING at time 1593



*** Looping through 5.2. Iter = 1752 


  iteration 1752; minNextMutationTime = 1604; timeNextPopSample = 1594; popParams.size() = 1

 We are SAMPLING at time 1594



*** Looping through 5.2. Iter = 1753 


  iteration 1753; minNextMutationTime = 1605; timeNextPopSample = 1595; popParams.size() = 1

 We are SAMPLING at time 1595



*** Looping through 5.2. Iter = 1754 


  iteration 1754; minNextMutationTime = 1595.51; timeNextPopSample = 1596; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1755 


  iteration 1755; minNextMutationTime = 1606; timeNextPopSample = 1596; popParams.size() = 2

 We are SAMPLING at time 1596



*** Looping through 5.2. Iter = 1756 


  iteration 1756; minNextMutationTime = 1596.14; timeNextPopSample = 1597; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1757 


  iteration 1757; minNextMutationTime = 1607; timeNextPopSample = 1597; popParams.size() = 3

 We are SAMPLING at time 1597



*** Looping through 5.2. Iter = 1758 


  iteration 1758; minNextMutationTime = 1608; timeNextPopSample = 1598; popParams.size() = 3

 We are SAMPLING at time 1598



*** Looping through 5.2. Iter = 1759 


  iteration 1759; minNextMutationTime = 1609; timeNextPopSample = 1599; popParams.size() = 3

 We are SAMPLING at time 1599



*** Looping through 5.2. Iter = 1760 


  iteration 1760; minNextMutationTime = 1610; timeNextPopSample = 1600; popParams.size() = 3

 We are SAMPLING at time 1600



*** Looping through 5.2. Iter = 1761 


  iteration 1761; minNextMutationTime = 1611; timeNextPopSample = 1601; popParams.size() = 3

 We are SAMPLING at time 1601



*** Looping through 5.2. Iter = 1762 


  iteration 1762; minNextMutationTime = 1612; timeNextPopSample = 1602; popParams.size() = 3

 We are SAMPLING at time 1602



*** Looping through 5.2. Iter = 1763 


  iteration 1763; minNextMutationTime = 1613; timeNextPopSample = 1603; popParams.size() = 3

 We are SAMPLING at time 1603



*** Looping through 5.2. Iter = 1764 


  iteration 1764; minNextMutationTime = 1614; timeNextPopSample = 1604; popParams.size() = 3

 We are SAMPLING at time 1604



*** Looping through 5.2. Iter = 1765 


  iteration 1765; minNextMutationTime = 1615; timeNextPopSample = 1605; popParams.size() = 3

 We are SAMPLING at time 1605



*** Looping through 5.2. Iter = 1766 


  iteration 1766; minNextMutationTime = 1616; timeNextPopSample = 1606; popParams.size() = 3

 We are SAMPLING at time 1606



*** Looping through 5.2. Iter = 1767 


  iteration 1767; minNextMutationTime = 1617; timeNextPopSample = 1607; popParams.size() = 3

 We are SAMPLING at time 1607



*** Looping through 5.2. Iter = 1768 


  iteration 1768; minNextMutationTime = 1618; timeNextPopSample = 1608; popParams.size() = 3

 We are SAMPLING at time 1608



*** Looping through 5.2. Iter = 1769 


  iteration 1769; minNextMutationTime = 1619; timeNextPopSample = 1609; popParams.size() = 3

 We are SAMPLING at time 1609



*** Looping through 5.2. Iter = 1770 


  iteration 1770; minNextMutationTime = 1620; timeNextPopSample = 1610; popParams.size() = 3

 We are SAMPLING at time 1610



*** Looping through 5.2. Iter = 1771 


  iteration 1771; minNextMutationTime = 1621; timeNextPopSample = 1611; popParams.size() = 3

 We are SAMPLING at time 1611



*** Looping through 5.2. Iter = 1772 


  iteration 1772; minNextMutationTime = 1622; timeNextPopSample = 1612; popParams.size() = 3

 We are SAMPLING at time 1612



*** Looping through 5.2. Iter = 1773 


  iteration 1773; minNextMutationTime = 1623; timeNextPopSample = 1613; popParams.size() = 3

 We are SAMPLING at time 1613



*** Looping through 5.2. Iter = 1774 


  iteration 1774; minNextMutationTime = 1624; timeNextPopSample = 1614; popParams.size() = 3

 We are SAMPLING at time 1614



*** Looping through 5.2. Iter = 1775 


  iteration 1775; minNextMutationTime = 1625; timeNextPopSample = 1615; popParams.size() = 3

 We are SAMPLING at time 1615



*** Looping through 5.2. Iter = 1776 


  iteration 1776; minNextMutationTime = 1626; timeNextPopSample = 1616; popParams.size() = 3

 We are SAMPLING at time 1616



*** Looping through 5.2. Iter = 1777 


  iteration 1777; minNextMutationTime = 1627; timeNextPopSample = 1617; popParams.size() = 2

 We are SAMPLING at time 1617



*** Looping through 5.2. Iter = 1778 


  iteration 1778; minNextMutationTime = 1628; timeNextPopSample = 1618; popParams.size() = 2

 We are SAMPLING at time 1618



*** Looping through 5.2. Iter = 1779 


  iteration 1779; minNextMutationTime = 1618.64; timeNextPopSample = 1619; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1780 


  iteration 1780; minNextMutationTime = 1629; timeNextPopSample = 1619; popParams.size() = 3

 We are SAMPLING at time 1619



*** Looping through 5.2. Iter = 1781 


  iteration 1781; minNextMutationTime = 1630; timeNextPopSample = 1620; popParams.size() = 3

 We are SAMPLING at time 1620



*** Looping through 5.2. Iter = 1782 


  iteration 1782; minNextMutationTime = 1631; timeNextPopSample = 1621; popParams.size() = 2

 We are SAMPLING at time 1621



*** Looping through 5.2. Iter = 1783 


  iteration 1783; minNextMutationTime = 1632; timeNextPopSample = 1622; popParams.size() = 2

 We are SAMPLING at time 1622



*** Looping through 5.2. Iter = 1784 


  iteration 1784; minNextMutationTime = 1633; timeNextPopSample = 1623; popParams.size() = 2

 We are SAMPLING at time 1623



*** Looping through 5.2. Iter = 1785 


  iteration 1785; minNextMutationTime = 1634; timeNextPopSample = 1624; popParams.size() = 2

 We are SAMPLING at time 1624



*** Looping through 5.2. Iter = 1786 


  iteration 1786; minNextMutationTime = 1635; timeNextPopSample = 1625; popParams.size() = 2

 We are SAMPLING at time 1625



*** Looping through 5.2. Iter = 1787 


  iteration 1787; minNextMutationTime = 1636; timeNextPopSample = 1626; popParams.size() = 2

 We are SAMPLING at time 1626



*** Looping through 5.2. Iter = 1788 


  iteration 1788; minNextMutationTime = 1637; timeNextPopSample = 1627; popParams.size() = 2

 We are SAMPLING at time 1627



*** Looping through 5.2. Iter = 1789 


  iteration 1789; minNextMutationTime = 1638; timeNextPopSample = 1628; popParams.size() = 2

 We are SAMPLING at time 1628



*** Looping through 5.2. Iter = 1790 


  iteration 1790; minNextMutationTime = 1639; timeNextPopSample = 1629; popParams.size() = 2

 We are SAMPLING at time 1629



*** Looping through 5.2. Iter = 1791 


  iteration 1791; minNextMutationTime = 1640; timeNextPopSample = 1630; popParams.size() = 2

 We are SAMPLING at time 1630



*** Looping through 5.2. Iter = 1792 


  iteration 1792; minNextMutationTime = 1641; timeNextPopSample = 1631; popParams.size() = 2

 We are SAMPLING at time 1631



*** Looping through 5.2. Iter = 1793 


  iteration 1793; minNextMutationTime = 1642; timeNextPopSample = 1632; popParams.size() = 2

 We are SAMPLING at time 1632



*** Looping through 5.2. Iter = 1794 


  iteration 1794; minNextMutationTime = 1643; timeNextPopSample = 1633; popParams.size() = 2

 We are SAMPLING at time 1633



*** Looping through 5.2. Iter = 1795 


  iteration 1795; minNextMutationTime = 1633.78; timeNextPopSample = 1634; popParams.size() = 2

     Mutated to existing species 1 (Genotype = 0000000000000000000000000000000000000000000000000000000000000010; sp_id = 2)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 2)
 New popSize = 7



*** Looping through 5.2. Iter = 1796 


  iteration 1796; minNextMutationTime = 1644; timeNextPopSample = 1634; popParams.size() = 2

 We are SAMPLING at time 1634



*** Looping through 5.2. Iter = 1797 


  iteration 1797; minNextMutationTime = 1645; timeNextPopSample = 1635; popParams.size() = 2

 We are SAMPLING at time 1635



*** Looping through 5.2. Iter = 1798 


  iteration 1798; minNextMutationTime = 1646; timeNextPopSample = 1636; popParams.size() = 2

 We are SAMPLING at time 1636



*** Looping through 5.2. Iter = 1799 


  iteration 1799; minNextMutationTime = 1647; timeNextPopSample = 1637; popParams.size() = 2

 We are SAMPLING at time 1637



*** Looping through 5.2. Iter = 1800 


  iteration 1800; minNextMutationTime = 1648; timeNextPopSample = 1638; popParams.size() = 2

 We are SAMPLING at time 1638



*** Looping through 5.2. Iter = 1801 


  iteration 1801; minNextMutationTime = 1649; timeNextPopSample = 1639; popParams.size() = 2

 We are SAMPLING at time 1639



*** Looping through 5.2. Iter = 1802 


  iteration 1802; minNextMutationTime = 1639.12; timeNextPopSample = 1640; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1803 


  iteration 1803; minNextMutationTime = 1650; timeNextPopSample = 1640; popParams.size() = 2

 We are SAMPLING at time 1640



*** Looping through 5.2. Iter = 1804 


  iteration 1804; minNextMutationTime = 1651; timeNextPopSample = 1641; popParams.size() = 1

 We are SAMPLING at time 1641



*** Looping through 5.2. Iter = 1805 


  iteration 1805; minNextMutationTime = 1652; timeNextPopSample = 1642; popParams.size() = 1

 We are SAMPLING at time 1642



*** Looping through 5.2. Iter = 1806 


  iteration 1806; minNextMutationTime = 1653; timeNextPopSample = 1643; popParams.size() = 1

 We are SAMPLING at time 1643



*** Looping through 5.2. Iter = 1807 


  iteration 1807; minNextMutationTime = 1654; timeNextPopSample = 1644; popParams.size() = 1

 We are SAMPLING at time 1644



*** Looping through 5.2. Iter = 1808 


  iteration 1808; minNextMutationTime = 1655; timeNextPopSample = 1645; popParams.size() = 1

 We are SAMPLING at time 1645



*** Looping through 5.2. Iter = 1809 


  iteration 1809; minNextMutationTime = 1656; timeNextPopSample = 1646; popParams.size() = 1

 We are SAMPLING at time 1646



*** Looping through 5.2. Iter = 1810 


  iteration 1810; minNextMutationTime = 1646.25; timeNextPopSample = 1647; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1811 


  iteration 1811; minNextMutationTime = 1657; timeNextPopSample = 1647; popParams.size() = 2

 We are SAMPLING at time 1647



*** Looping through 5.2. Iter = 1812 


  iteration 1812; minNextMutationTime = 1658; timeNextPopSample = 1648; popParams.size() = 1

 We are SAMPLING at time 1648



*** Looping through 5.2. Iter = 1813 


  iteration 1813; minNextMutationTime = 1659; timeNextPopSample = 1649; popParams.size() = 1

 We are SAMPLING at time 1649



*** Looping through 5.2. Iter = 1814 


  iteration 1814; minNextMutationTime = 1649.62; timeNextPopSample = 1650; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1815 


  iteration 1815; minNextMutationTime = 1660; timeNextPopSample = 1650; popParams.size() = 2

 We are SAMPLING at time 1650



*** Looping through 5.2. Iter = 1816 


  iteration 1816; minNextMutationTime = 1650.49; timeNextPopSample = 1651; popParams.size() = 2

     Mutated to existing species 1 (Genotype = 0000000000000000000000000000000000000000000000000000000000000010; sp_id = 2)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 2)
 New popSize = 2



*** Looping through 5.2. Iter = 1817 


  iteration 1817; minNextMutationTime = 1661; timeNextPopSample = 1651; popParams.size() = 2

 We are SAMPLING at time 1651



*** Looping through 5.2. Iter = 1818 


  iteration 1818; minNextMutationTime = 1662; timeNextPopSample = 1652; popParams.size() = 2

 We are SAMPLING at time 1652



*** Looping through 5.2. Iter = 1819 


  iteration 1819; minNextMutationTime = 1663; timeNextPopSample = 1653; popParams.size() = 2

 We are SAMPLING at time 1653



*** Looping through 5.2. Iter = 1820 


  iteration 1820; minNextMutationTime = 1664; timeNextPopSample = 1654; popParams.size() = 2

 We are SAMPLING at time 1654



*** Looping through 5.2. Iter = 1821 


  iteration 1821; minNextMutationTime = 1665; timeNextPopSample = 1655; popParams.size() = 2

 We are SAMPLING at time 1655



*** Looping through 5.2. Iter = 1822 


  iteration 1822; minNextMutationTime = 1666; timeNextPopSample = 1656; popParams.size() = 2

 We are SAMPLING at time 1656



*** Looping through 5.2. Iter = 1823 


  iteration 1823; minNextMutationTime = 1667; timeNextPopSample = 1657; popParams.size() = 2

 We are SAMPLING at time 1657



*** Looping through 5.2. Iter = 1824 


  iteration 1824; minNextMutationTime = 1668; timeNextPopSample = 1658; popParams.size() = 2

 We are SAMPLING at time 1658



*** Looping through 5.2. Iter = 1825 


  iteration 1825; minNextMutationTime = 1658.36; timeNextPopSample = 1659; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1826 


  iteration 1826; minNextMutationTime = 1669; timeNextPopSample = 1659; popParams.size() = 2

 We are SAMPLING at time 1659



*** Looping through 5.2. Iter = 1827 


  iteration 1827; minNextMutationTime = 1670; timeNextPopSample = 1660; popParams.size() = 1

 We are SAMPLING at time 1660



*** Looping through 5.2. Iter = 1828 


  iteration 1828; minNextMutationTime = 1671; timeNextPopSample = 1661; popParams.size() = 1

 We are SAMPLING at time 1661



*** Looping through 5.2. Iter = 1829 


  iteration 1829; minNextMutationTime = 1672; timeNextPopSample = 1662; popParams.size() = 1

 We are SAMPLING at time 1662



*** Looping through 5.2. Iter = 1830 


  iteration 1830; minNextMutationTime = 1662.41; timeNextPopSample = 1663; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1831 


  iteration 1831; minNextMutationTime = 1673; timeNextPopSample = 1663; popParams.size() = 2

 We are SAMPLING at time 1663



*** Looping through 5.2. Iter = 1832 


  iteration 1832; minNextMutationTime = 1674; timeNextPopSample = 1664; popParams.size() = 1

 We are SAMPLING at time 1664



*** Looping through 5.2. Iter = 1833 


  iteration 1833; minNextMutationTime = 1675; timeNextPopSample = 1665; popParams.size() = 1

 We are SAMPLING at time 1665



*** Looping through 5.2. Iter = 1834 


  iteration 1834; minNextMutationTime = 1676; timeNextPopSample = 1666; popParams.size() = 1

 We are SAMPLING at time 1666



*** Looping through 5.2. Iter = 1835 


  iteration 1835; minNextMutationTime = 1677; timeNextPopSample = 1667; popParams.size() = 1

 We are SAMPLING at time 1667



*** Looping through 5.2. Iter = 1836 


  iteration 1836; minNextMutationTime = 1678; timeNextPopSample = 1668; popParams.size() = 1

 We are SAMPLING at time 1668



*** Looping through 5.2. Iter = 1837 


  iteration 1837; minNextMutationTime = 1679; timeNextPopSample = 1669; popParams.size() = 1

 We are SAMPLING at time 1669



*** Looping through 5.2. Iter = 1838 


  iteration 1838; minNextMutationTime = 1680; timeNextPopSample = 1670; popParams.size() = 1

 We are SAMPLING at time 1670



*** Looping through 5.2. Iter = 1839 


  iteration 1839; minNextMutationTime = 1681; timeNextPopSample = 1671; popParams.size() = 1

 We are SAMPLING at time 1671



*** Looping through 5.2. Iter = 1840 


  iteration 1840; minNextMutationTime = 1682; timeNextPopSample = 1672; popParams.size() = 1

 We are SAMPLING at time 1672



*** Looping through 5.2. Iter = 1841 


  iteration 1841; minNextMutationTime = 1683; timeNextPopSample = 1673; popParams.size() = 1

 We are SAMPLING at time 1673



*** Looping through 5.2. Iter = 1842 


  iteration 1842; minNextMutationTime = 1684; timeNextPopSample = 1674; popParams.size() = 1

 We are SAMPLING at time 1674



*** Looping through 5.2. Iter = 1843 


  iteration 1843; minNextMutationTime = 1685; timeNextPopSample = 1675; popParams.size() = 1

 We are SAMPLING at time 1675



*** Looping through 5.2. Iter = 1844 


  iteration 1844; minNextMutationTime = 1675.57; timeNextPopSample = 1676; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1845 


  iteration 1845; minNextMutationTime = 1686; timeNextPopSample = 1676; popParams.size() = 2

 We are SAMPLING at time 1676



*** Looping through 5.2. Iter = 1846 


  iteration 1846; minNextMutationTime = 1687; timeNextPopSample = 1677; popParams.size() = 1

 We are SAMPLING at time 1677



*** Looping through 5.2. Iter = 1847 


  iteration 1847; minNextMutationTime = 1688; timeNextPopSample = 1678; popParams.size() = 1

 We are SAMPLING at time 1678



*** Looping through 5.2. Iter = 1848 


  iteration 1848; minNextMutationTime = 1689; timeNextPopSample = 1679; popParams.size() = 1

 We are SAMPLING at time 1679



*** Looping through 5.2. Iter = 1849 


  iteration 1849; minNextMutationTime = 1679.28; timeNextPopSample = 1680; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1850 


  iteration 1850; minNextMutationTime = 1690; timeNextPopSample = 1680; popParams.size() = 2

 We are SAMPLING at time 1680



*** Looping through 5.2. Iter = 1851 


  iteration 1851; minNextMutationTime = 1691; timeNextPopSample = 1681; popParams.size() = 1

 We are SAMPLING at time 1681



*** Looping through 5.2. Iter = 1852 


  iteration 1852; minNextMutationTime = 1692; timeNextPopSample = 1682; popParams.size() = 1

 We are SAMPLING at time 1682



*** Looping through 5.2. Iter = 1853 


  iteration 1853; minNextMutationTime = 1693; timeNextPopSample = 1683; popParams.size() = 1

 We are SAMPLING at time 1683



*** Looping through 5.2. Iter = 1854 


  iteration 1854; minNextMutationTime = 1694; timeNextPopSample = 1684; popParams.size() = 1

 We are SAMPLING at time 1684



*** Looping through 5.2. Iter = 1855 


  iteration 1855; minNextMutationTime = 1695; timeNextPopSample = 1685; popParams.size() = 1

 We are SAMPLING at time 1685



*** Looping through 5.2. Iter = 1856 


  iteration 1856; minNextMutationTime = 1696; timeNextPopSample = 1686; popParams.size() = 1

 We are SAMPLING at time 1686



*** Looping through 5.2. Iter = 1857 


  iteration 1857; minNextMutationTime = 1697; timeNextPopSample = 1687; popParams.size() = 1

 We are SAMPLING at time 1687



*** Looping through 5.2. Iter = 1858 


  iteration 1858; minNextMutationTime = 1698; timeNextPopSample = 1688; popParams.size() = 1

 We are SAMPLING at time 1688



*** Looping through 5.2. Iter = 1859 


  iteration 1859; minNextMutationTime = 1699; timeNextPopSample = 1689; popParams.size() = 1

 We are SAMPLING at time 1689



*** Looping through 5.2. Iter = 1860 


  iteration 1860; minNextMutationTime = 1700; timeNextPopSample = 1690; popParams.size() = 1

 We are SAMPLING at time 1690



*** Looping through 5.2. Iter = 1861 


  iteration 1861; minNextMutationTime = 1701; timeNextPopSample = 1691; popParams.size() = 1

 We are SAMPLING at time 1691



*** Looping through 5.2. Iter = 1862 


  iteration 1862; minNextMutationTime = 1702; timeNextPopSample = 1692; popParams.size() = 1

 We are SAMPLING at time 1692



*** Looping through 5.2. Iter = 1863 


  iteration 1863; minNextMutationTime = 1703; timeNextPopSample = 1693; popParams.size() = 1

 We are SAMPLING at time 1693



*** Looping through 5.2. Iter = 1864 


  iteration 1864; minNextMutationTime = 1704; timeNextPopSample = 1694; popParams.size() = 1

 We are SAMPLING at time 1694



*** Looping through 5.2. Iter = 1865 


  iteration 1865; minNextMutationTime = 1705; timeNextPopSample = 1695; popParams.size() = 1

 We are SAMPLING at time 1695



*** Looping through 5.2. Iter = 1866 


  iteration 1866; minNextMutationTime = 1706; timeNextPopSample = 1696; popParams.size() = 1

 We are SAMPLING at time 1696



*** Looping through 5.2. Iter = 1867 


  iteration 1867; minNextMutationTime = 1707; timeNextPopSample = 1697; popParams.size() = 1

 We are SAMPLING at time 1697



*** Looping through 5.2. Iter = 1868 


  iteration 1868; minNextMutationTime = 1708; timeNextPopSample = 1698; popParams.size() = 1

 We are SAMPLING at time 1698



*** Looping through 5.2. Iter = 1869 


  iteration 1869; minNextMutationTime = 1709; timeNextPopSample = 1699; popParams.size() = 1

 We are SAMPLING at time 1699



*** Looping through 5.2. Iter = 1870 


  iteration 1870; minNextMutationTime = 1710; timeNextPopSample = 1700; popParams.size() = 1

 We are SAMPLING at time 1700



*** Looping through 5.2. Iter = 1871 


  iteration 1871; minNextMutationTime = 1711; timeNextPopSample = 1701; popParams.size() = 1

 We are SAMPLING at time 1701



*** Looping through 5.2. Iter = 1872 


  iteration 1872; minNextMutationTime = 1712; timeNextPopSample = 1702; popParams.size() = 1

 We are SAMPLING at time 1702



*** Looping through 5.2. Iter = 1873 


  iteration 1873; minNextMutationTime = 1713; timeNextPopSample = 1703; popParams.size() = 1

 We are SAMPLING at time 1703



*** Looping through 5.2. Iter = 1874 


  iteration 1874; minNextMutationTime = 1714; timeNextPopSample = 1704; popParams.size() = 1

 We are SAMPLING at time 1704



*** Looping through 5.2. Iter = 1875 


  iteration 1875; minNextMutationTime = 1715; timeNextPopSample = 1705; popParams.size() = 1

 We are SAMPLING at time 1705



*** Looping through 5.2. Iter = 1876 


  iteration 1876; minNextMutationTime = 1716; timeNextPopSample = 1706; popParams.size() = 1

 We are SAMPLING at time 1706



*** Looping through 5.2. Iter = 1877 


  iteration 1877; minNextMutationTime = 1717; timeNextPopSample = 1707; popParams.size() = 1

 We are SAMPLING at time 1707



*** Looping through 5.2. Iter = 1878 


  iteration 1878; minNextMutationTime = 1718; timeNextPopSample = 1708; popParams.size() = 1

 We are SAMPLING at time 1708



*** Looping through 5.2. Iter = 1879 


  iteration 1879; minNextMutationTime = 1719; timeNextPopSample = 1709; popParams.size() = 1

 We are SAMPLING at time 1709



*** Looping through 5.2. Iter = 1880 


  iteration 1880; minNextMutationTime = 1720; timeNextPopSample = 1710; popParams.size() = 1

 We are SAMPLING at time 1710



*** Looping through 5.2. Iter = 1881 


  iteration 1881; minNextMutationTime = 1721; timeNextPopSample = 1711; popParams.size() = 1

 We are SAMPLING at time 1711



*** Looping through 5.2. Iter = 1882 


  iteration 1882; minNextMutationTime = 1711.77; timeNextPopSample = 1712; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1883 


  iteration 1883; minNextMutationTime = 1722; timeNextPopSample = 1712; popParams.size() = 2

 We are SAMPLING at time 1712



*** Looping through 5.2. Iter = 1884 


  iteration 1884; minNextMutationTime = 1723; timeNextPopSample = 1713; popParams.size() = 1

 We are SAMPLING at time 1713



*** Looping through 5.2. Iter = 1885 


  iteration 1885; minNextMutationTime = 1724; timeNextPopSample = 1714; popParams.size() = 1

 We are SAMPLING at time 1714



*** Looping through 5.2. Iter = 1886 


  iteration 1886; minNextMutationTime = 1725; timeNextPopSample = 1715; popParams.size() = 1

 We are SAMPLING at time 1715



*** Looping through 5.2. Iter = 1887 


  iteration 1887; minNextMutationTime = 1726; timeNextPopSample = 1716; popParams.size() = 1

 We are SAMPLING at time 1716



*** Looping through 5.2. Iter = 1888 


  iteration 1888; minNextMutationTime = 1727; timeNextPopSample = 1717; popParams.size() = 1

 We are SAMPLING at time 1717



*** Looping through 5.2. Iter = 1889 


  iteration 1889; minNextMutationTime = 1728; timeNextPopSample = 1718; popParams.size() = 1

 We are SAMPLING at time 1718



*** Looping through 5.2. Iter = 1890 


  iteration 1890; minNextMutationTime = 1729; timeNextPopSample = 1719; popParams.size() = 1

 We are SAMPLING at time 1719



*** Looping through 5.2. Iter = 1891 


  iteration 1891; minNextMutationTime = 1730; timeNextPopSample = 1720; popParams.size() = 1

 We are SAMPLING at time 1720



*** Looping through 5.2. Iter = 1892 


  iteration 1892; minNextMutationTime = 1731; timeNextPopSample = 1721; popParams.size() = 1

 We are SAMPLING at time 1721



*** Looping through 5.2. Iter = 1893 


  iteration 1893; minNextMutationTime = 1732; timeNextPopSample = 1722; popParams.size() = 1

 We are SAMPLING at time 1722



*** Looping through 5.2. Iter = 1894 


  iteration 1894; minNextMutationTime = 1733; timeNextPopSample = 1723; popParams.size() = 1

 We are SAMPLING at time 1723



*** Looping through 5.2. Iter = 1895 


  iteration 1895; minNextMutationTime = 1734; timeNextPopSample = 1724; popParams.size() = 1

 We are SAMPLING at time 1724



*** Looping through 5.2. Iter = 1896 


  iteration 1896; minNextMutationTime = 1735; timeNextPopSample = 1725; popParams.size() = 1

 We are SAMPLING at time 1725



*** Looping through 5.2. Iter = 1897 


  iteration 1897; minNextMutationTime = 1736; timeNextPopSample = 1726; popParams.size() = 1

 We are SAMPLING at time 1726



*** Looping through 5.2. Iter = 1898 


  iteration 1898; minNextMutationTime = 1737; timeNextPopSample = 1727; popParams.size() = 1

 We are SAMPLING at time 1727



*** Looping through 5.2. Iter = 1899 


  iteration 1899; minNextMutationTime = 1738; timeNextPopSample = 1728; popParams.size() = 1

 We are SAMPLING at time 1728



*** Looping through 5.2. Iter = 1900 


  iteration 1900; minNextMutationTime = 1739; timeNextPopSample = 1729; popParams.size() = 1

 We are SAMPLING at time 1729



*** Looping through 5.2. Iter = 1901 


  iteration 1901; minNextMutationTime = 1729.24; timeNextPopSample = 1730; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1902 


  iteration 1902; minNextMutationTime = 1740; timeNextPopSample = 1730; popParams.size() = 2

 We are SAMPLING at time 1730



*** Looping through 5.2. Iter = 1903 


  iteration 1903; minNextMutationTime = 1741; timeNextPopSample = 1731; popParams.size() = 2

 We are SAMPLING at time 1731



*** Looping through 5.2. Iter = 1904 


  iteration 1904; minNextMutationTime = 1742; timeNextPopSample = 1732; popParams.size() = 1

 We are SAMPLING at time 1732



*** Looping through 5.2. Iter = 1905 


  iteration 1905; minNextMutationTime = 1743; timeNextPopSample = 1733; popParams.size() = 1

 We are SAMPLING at time 1733



*** Looping through 5.2. Iter = 1906 


  iteration 1906; minNextMutationTime = 1733.34; timeNextPopSample = 1734; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1907 


  iteration 1907; minNextMutationTime = 1744; timeNextPopSample = 1734; popParams.size() = 2

 We are SAMPLING at time 1734



*** Looping through 5.2. Iter = 1908 


  iteration 1908; minNextMutationTime = 1745; timeNextPopSample = 1735; popParams.size() = 2

 We are SAMPLING at time 1735



*** Looping through 5.2. Iter = 1909 


  iteration 1909; minNextMutationTime = 1746; timeNextPopSample = 1736; popParams.size() = 1

 We are SAMPLING at time 1736



*** Looping through 5.2. Iter = 1910 


  iteration 1910; minNextMutationTime = 1747; timeNextPopSample = 1737; popParams.size() = 1

 We are SAMPLING at time 1737



*** Looping through 5.2. Iter = 1911 


  iteration 1911; minNextMutationTime = 1748; timeNextPopSample = 1738; popParams.size() = 1

 We are SAMPLING at time 1738



*** Looping through 5.2. Iter = 1912 


  iteration 1912; minNextMutationTime = 1749; timeNextPopSample = 1739; popParams.size() = 1

 We are SAMPLING at time 1739



*** Looping through 5.2. Iter = 1913 


  iteration 1913; minNextMutationTime = 1750; timeNextPopSample = 1740; popParams.size() = 1

 We are SAMPLING at time 1740



*** Looping through 5.2. Iter = 1914 


  iteration 1914; minNextMutationTime = 1740.19; timeNextPopSample = 1741; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1915 


  iteration 1915; minNextMutationTime = 1751; timeNextPopSample = 1741; popParams.size() = 2

 We are SAMPLING at time 1741



*** Looping through 5.2. Iter = 1916 


  iteration 1916; minNextMutationTime = 1752; timeNextPopSample = 1742; popParams.size() = 1

 We are SAMPLING at time 1742



*** Looping through 5.2. Iter = 1917 


  iteration 1917; minNextMutationTime = 1753; timeNextPopSample = 1743; popParams.size() = 1

 We are SAMPLING at time 1743



*** Looping through 5.2. Iter = 1918 


  iteration 1918; minNextMutationTime = 1754; timeNextPopSample = 1744; popParams.size() = 1

 We are SAMPLING at time 1744



*** Looping through 5.2. Iter = 1919 


  iteration 1919; minNextMutationTime = 1755; timeNextPopSample = 1745; popParams.size() = 1

 We are SAMPLING at time 1745



*** Looping through 5.2. Iter = 1920 


  iteration 1920; minNextMutationTime = 1756; timeNextPopSample = 1746; popParams.size() = 1

 We are SAMPLING at time 1746



*** Looping through 5.2. Iter = 1921 


  iteration 1921; minNextMutationTime = 1757; timeNextPopSample = 1747; popParams.size() = 1

 We are SAMPLING at time 1747



*** Looping through 5.2. Iter = 1922 


  iteration 1922; minNextMutationTime = 1747.69; timeNextPopSample = 1748; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1923 


  iteration 1923; minNextMutationTime = 1758; timeNextPopSample = 1748; popParams.size() = 2

 We are SAMPLING at time 1748



*** Looping through 5.2. Iter = 1924 


  iteration 1924; minNextMutationTime = 1759; timeNextPopSample = 1749; popParams.size() = 2

 We are SAMPLING at time 1749



*** Looping through 5.2. Iter = 1925 


  iteration 1925; minNextMutationTime = 1760; timeNextPopSample = 1750; popParams.size() = 2

 We are SAMPLING at time 1750



*** Looping through 5.2. Iter = 1926 


  iteration 1926; minNextMutationTime = 1761; timeNextPopSample = 1751; popParams.size() = 2

 We are SAMPLING at time 1751



*** Looping through 5.2. Iter = 1927 


  iteration 1927; minNextMutationTime = 1762; timeNextPopSample = 1752; popParams.size() = 1

 We are SAMPLING at time 1752



*** Looping through 5.2. Iter = 1928 


  iteration 1928; minNextMutationTime = 1763; timeNextPopSample = 1753; popParams.size() = 1

 We are SAMPLING at time 1753



*** Looping through 5.2. Iter = 1929 


  iteration 1929; minNextMutationTime = 1764; timeNextPopSample = 1754; popParams.size() = 1

 We are SAMPLING at time 1754



*** Looping through 5.2. Iter = 1930 


  iteration 1930; minNextMutationTime = 1765; timeNextPopSample = 1755; popParams.size() = 1

 We are SAMPLING at time 1755



*** Looping through 5.2. Iter = 1931 


  iteration 1931; minNextMutationTime = 1766; timeNextPopSample = 1756; popParams.size() = 1

 We are SAMPLING at time 1756



*** Looping through 5.2. Iter = 1932 


  iteration 1932; minNextMutationTime = 1767; timeNextPopSample = 1757; popParams.size() = 1

 We are SAMPLING at time 1757



*** Looping through 5.2. Iter = 1933 


  iteration 1933; minNextMutationTime = 1768; timeNextPopSample = 1758; popParams.size() = 1

 We are SAMPLING at time 1758



*** Looping through 5.2. Iter = 1934 


  iteration 1934; minNextMutationTime = 1769; timeNextPopSample = 1759; popParams.size() = 1

 We are SAMPLING at time 1759



*** Looping through 5.2. Iter = 1935 


  iteration 1935; minNextMutationTime = 1770; timeNextPopSample = 1760; popParams.size() = 1

 We are SAMPLING at time 1760



*** Looping through 5.2. Iter = 1936 


  iteration 1936; minNextMutationTime = 1771; timeNextPopSample = 1761; popParams.size() = 1

 We are SAMPLING at time 1761



*** Looping through 5.2. Iter = 1937 


  iteration 1937; minNextMutationTime = 1761.31; timeNextPopSample = 1762; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1938 


  iteration 1938; minNextMutationTime = 1772; timeNextPopSample = 1762; popParams.size() = 2

 We are SAMPLING at time 1762



*** Looping through 5.2. Iter = 1939 


  iteration 1939; minNextMutationTime = 1773; timeNextPopSample = 1763; popParams.size() = 2

 We are SAMPLING at time 1763



*** Looping through 5.2. Iter = 1940 


  iteration 1940; minNextMutationTime = 1774; timeNextPopSample = 1764; popParams.size() = 1

 We are SAMPLING at time 1764



*** Looping through 5.2. Iter = 1941 


  iteration 1941; minNextMutationTime = 1775; timeNextPopSample = 1765; popParams.size() = 1

 We are SAMPLING at time 1765



*** Looping through 5.2. Iter = 1942 


  iteration 1942; minNextMutationTime = 1776; timeNextPopSample = 1766; popParams.size() = 1

 We are SAMPLING at time 1766



*** Looping through 5.2. Iter = 1943 


  iteration 1943; minNextMutationTime = 1777; timeNextPopSample = 1767; popParams.size() = 1

 We are SAMPLING at time 1767



*** Looping through 5.2. Iter = 1944 


  iteration 1944; minNextMutationTime = 1778; timeNextPopSample = 1768; popParams.size() = 1

 We are SAMPLING at time 1768



*** Looping through 5.2. Iter = 1945 


  iteration 1945; minNextMutationTime = 1779; timeNextPopSample = 1769; popParams.size() = 1

 We are SAMPLING at time 1769



*** Looping through 5.2. Iter = 1946 


  iteration 1946; minNextMutationTime = 1780; timeNextPopSample = 1770; popParams.size() = 1

 We are SAMPLING at time 1770



*** Looping through 5.2. Iter = 1947 


  iteration 1947; minNextMutationTime = 1781; timeNextPopSample = 1771; popParams.size() = 1

 We are SAMPLING at time 1771



*** Looping through 5.2. Iter = 1948 


  iteration 1948; minNextMutationTime = 1782; timeNextPopSample = 1772; popParams.size() = 1

 We are SAMPLING at time 1772



*** Looping through 5.2. Iter = 1949 


  iteration 1949; minNextMutationTime = 1783; timeNextPopSample = 1773; popParams.size() = 1

 We are SAMPLING at time 1773



*** Looping through 5.2. Iter = 1950 


  iteration 1950; minNextMutationTime = 1784; timeNextPopSample = 1774; popParams.size() = 1

 We are SAMPLING at time 1774



*** Looping through 5.2. Iter = 1951 


  iteration 1951; minNextMutationTime = 1785; timeNextPopSample = 1775; popParams.size() = 1

 We are SAMPLING at time 1775



*** Looping through 5.2. Iter = 1952 


  iteration 1952; minNextMutationTime = 1786; timeNextPopSample = 1776; popParams.size() = 1

 We are SAMPLING at time 1776



*** Looping through 5.2. Iter = 1953 


  iteration 1953; minNextMutationTime = 1787; timeNextPopSample = 1777; popParams.size() = 1

 We are SAMPLING at time 1777



*** Looping through 5.2. Iter = 1954 


  iteration 1954; minNextMutationTime = 1788; timeNextPopSample = 1778; popParams.size() = 1

 We are SAMPLING at time 1778



*** Looping through 5.2. Iter = 1955 


  iteration 1955; minNextMutationTime = 1778.55; timeNextPopSample = 1779; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1956 


  iteration 1956; minNextMutationTime = 1789; timeNextPopSample = 1779; popParams.size() = 2

 We are SAMPLING at time 1779



*** Looping through 5.2. Iter = 1957 


  iteration 1957; minNextMutationTime = 1790; timeNextPopSample = 1780; popParams.size() = 2

 We are SAMPLING at time 1780



*** Looping through 5.2. Iter = 1958 


  iteration 1958; minNextMutationTime = 1791; timeNextPopSample = 1781; popParams.size() = 1

 We are SAMPLING at time 1781



*** Looping through 5.2. Iter = 1959 


  iteration 1959; minNextMutationTime = 1792; timeNextPopSample = 1782; popParams.size() = 1

 We are SAMPLING at time 1782



*** Looping through 5.2. Iter = 1960 


  iteration 1960; minNextMutationTime = 1782.76; timeNextPopSample = 1783; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1961 


  iteration 1961; minNextMutationTime = 1793; timeNextPopSample = 1783; popParams.size() = 2

 We are SAMPLING at time 1783



*** Looping through 5.2. Iter = 1962 


  iteration 1962; minNextMutationTime = 1783.67; timeNextPopSample = 1784; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1963 


  iteration 1963; minNextMutationTime = 1794; timeNextPopSample = 1784; popParams.size() = 3

 We are SAMPLING at time 1784



*** Looping through 5.2. Iter = 1964 


  iteration 1964; minNextMutationTime = 1795; timeNextPopSample = 1785; popParams.size() = 2

 We are SAMPLING at time 1785



*** Looping through 5.2. Iter = 1965 


  iteration 1965; minNextMutationTime = 1796; timeNextPopSample = 1786; popParams.size() = 2

 We are SAMPLING at time 1786



*** Looping through 5.2. Iter = 1966 


  iteration 1966; minNextMutationTime = 1797; timeNextPopSample = 1787; popParams.size() = 1

 We are SAMPLING at time 1787



*** Looping through 5.2. Iter = 1967 


  iteration 1967; minNextMutationTime = 1798; timeNextPopSample = 1788; popParams.size() = 1

 We are SAMPLING at time 1788



*** Looping through 5.2. Iter = 1968 


  iteration 1968; minNextMutationTime = 1799; timeNextPopSample = 1789; popParams.size() = 1

 We are SAMPLING at time 1789



*** Looping through 5.2. Iter = 1969 


  iteration 1969; minNextMutationTime = 1800; timeNextPopSample = 1790; popParams.size() = 1

 We are SAMPLING at time 1790



*** Looping through 5.2. Iter = 1970 


  iteration 1970; minNextMutationTime = 1790.72; timeNextPopSample = 1791; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1971 


  iteration 1971; minNextMutationTime = 1801; timeNextPopSample = 1791; popParams.size() = 2

 We are SAMPLING at time 1791



*** Looping through 5.2. Iter = 1972 


  iteration 1972; minNextMutationTime = 1802; timeNextPopSample = 1792; popParams.size() = 2

 We are SAMPLING at time 1792



*** Looping through 5.2. Iter = 1973 


  iteration 1973; minNextMutationTime = 1803; timeNextPopSample = 1793; popParams.size() = 2

 We are SAMPLING at time 1793



*** Looping through 5.2. Iter = 1974 


  iteration 1974; minNextMutationTime = 1804; timeNextPopSample = 1794; popParams.size() = 2

 We are SAMPLING at time 1794



*** Looping through 5.2. Iter = 1975 


  iteration 1975; minNextMutationTime = 1805; timeNextPopSample = 1795; popParams.size() = 2

 We are SAMPLING at time 1795



*** Looping through 5.2. Iter = 1976 


  iteration 1976; minNextMutationTime = 1806; timeNextPopSample = 1796; popParams.size() = 2

 We are SAMPLING at time 1796



*** Looping through 5.2. Iter = 1977 


  iteration 1977; minNextMutationTime = 1807; timeNextPopSample = 1797; popParams.size() = 2

 We are SAMPLING at time 1797



*** Looping through 5.2. Iter = 1978 


  iteration 1978; minNextMutationTime = 1808; timeNextPopSample = 1798; popParams.size() = 2

 We are SAMPLING at time 1798



*** Looping through 5.2. Iter = 1979 


  iteration 1979; minNextMutationTime = 1798.59; timeNextPopSample = 1799; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1980 


  iteration 1980; minNextMutationTime = 1798.85; timeNextPopSample = 1799; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 1981 


  iteration 1981; minNextMutationTime = 1809; timeNextPopSample = 1799; popParams.size() = 3

 We are SAMPLING at time 1799



*** Looping through 5.2. Iter = 1982 


  iteration 1982; minNextMutationTime = 1810; timeNextPopSample = 1800; popParams.size() = 2

 We are SAMPLING at time 1800



*** Looping through 5.2. Iter = 1983 


  iteration 1983; minNextMutationTime = 1811; timeNextPopSample = 1801; popParams.size() = 1

 We are SAMPLING at time 1801



*** Looping through 5.2. Iter = 1984 


  iteration 1984; minNextMutationTime = 1812; timeNextPopSample = 1802; popParams.size() = 1

 We are SAMPLING at time 1802



*** Looping through 5.2. Iter = 1985 


  iteration 1985; minNextMutationTime = 1813; timeNextPopSample = 1803; popParams.size() = 1

 We are SAMPLING at time 1803



*** Looping through 5.2. Iter = 1986 


  iteration 1986; minNextMutationTime = 1814; timeNextPopSample = 1804; popParams.size() = 1

 We are SAMPLING at time 1804



*** Looping through 5.2. Iter = 1987 


  iteration 1987; minNextMutationTime = 1815; timeNextPopSample = 1805; popParams.size() = 1

 We are SAMPLING at time 1805



*** Looping through 5.2. Iter = 1988 


  iteration 1988; minNextMutationTime = 1816; timeNextPopSample = 1806; popParams.size() = 1

 We are SAMPLING at time 1806



*** Looping through 5.2. Iter = 1989 


  iteration 1989; minNextMutationTime = 1817; timeNextPopSample = 1807; popParams.size() = 1

 We are SAMPLING at time 1807



*** Looping through 5.2. Iter = 1990 


  iteration 1990; minNextMutationTime = 1818; timeNextPopSample = 1808; popParams.size() = 1

 We are SAMPLING at time 1808



*** Looping through 5.2. Iter = 1991 


  iteration 1991; minNextMutationTime = 1819; timeNextPopSample = 1809; popParams.size() = 1

 We are SAMPLING at time 1809



*** Looping through 5.2. Iter = 1992 


  iteration 1992; minNextMutationTime = 1820; timeNextPopSample = 1810; popParams.size() = 1

 We are SAMPLING at time 1810



*** Looping through 5.2. Iter = 1993 


  iteration 1993; minNextMutationTime = 1810.2; timeNextPopSample = 1811; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 1994 


  iteration 1994; minNextMutationTime = 1821; timeNextPopSample = 1811; popParams.size() = 2

 We are SAMPLING at time 1811



*** Looping through 5.2. Iter = 1995 


  iteration 1995; minNextMutationTime = 1822; timeNextPopSample = 1812; popParams.size() = 1

 We are SAMPLING at time 1812



*** Looping through 5.2. Iter = 1996 


  iteration 1996; minNextMutationTime = 1823; timeNextPopSample = 1813; popParams.size() = 1

 We are SAMPLING at time 1813



*** Looping through 5.2. Iter = 1997 


  iteration 1997; minNextMutationTime = 1824; timeNextPopSample = 1814; popParams.size() = 1

 We are SAMPLING at time 1814



*** Looping through 5.2. Iter = 1998 


  iteration 1998; minNextMutationTime = 1825; timeNextPopSample = 1815; popParams.size() = 1

 We are SAMPLING at time 1815



*** Looping through 5.2. Iter = 1999 


  iteration 1999; minNextMutationTime = 1826; timeNextPopSample = 1816; popParams.size() = 1

 We are SAMPLING at time 1816


    ... iteration 2000
    ... currentTime 1816



*** Looping through 5.2. Iter = 2000 


  iteration 2000; minNextMutationTime = 1827; timeNextPopSample = 1817; popParams.size() = 1

 We are SAMPLING at time 1817



*** Looping through 5.2. Iter = 2001 


  iteration 2001; minNextMutationTime = 1828; timeNextPopSample = 1818; popParams.size() = 1

 We are SAMPLING at time 1818



*** Looping through 5.2. Iter = 2002 


  iteration 2002; minNextMutationTime = 1829; timeNextPopSample = 1819; popParams.size() = 1

 We are SAMPLING at time 1819



*** Looping through 5.2. Iter = 2003 


  iteration 2003; minNextMutationTime = 1819.7; timeNextPopSample = 1820; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 2004 


  iteration 2004; minNextMutationTime = 1830; timeNextPopSample = 1820; popParams.size() = 2

 We are SAMPLING at time 1820



*** Looping through 5.2. Iter = 2005 


  iteration 2005; minNextMutationTime = 1831; timeNextPopSample = 1821; popParams.size() = 2

 We are SAMPLING at time 1821



*** Looping through 5.2. Iter = 2006 


  iteration 2006; minNextMutationTime = 1832; timeNextPopSample = 1822; popParams.size() = 1

 We are SAMPLING at time 1822



*** Looping through 5.2. Iter = 2007 


  iteration 2007; minNextMutationTime = 1833; timeNextPopSample = 1823; popParams.size() = 1

 We are SAMPLING at time 1823



*** Looping through 5.2. Iter = 2008 


  iteration 2008; minNextMutationTime = 1834; timeNextPopSample = 1824; popParams.size() = 1

 We are SAMPLING at time 1824



*** Looping through 5.2. Iter = 2009 


  iteration 2009; minNextMutationTime = 1835; timeNextPopSample = 1825; popParams.size() = 1

 We are SAMPLING at time 1825



*** Looping through 5.2. Iter = 2010 


  iteration 2010; minNextMutationTime = 1836; timeNextPopSample = 1826; popParams.size() = 1

 We are SAMPLING at time 1826



*** Looping through 5.2. Iter = 2011 


  iteration 2011; minNextMutationTime = 1837; timeNextPopSample = 1827; popParams.size() = 1

 We are SAMPLING at time 1827



*** Looping through 5.2. Iter = 2012 


  iteration 2012; minNextMutationTime = 1838; timeNextPopSample = 1828; popParams.size() = 1

 We are SAMPLING at time 1828



*** Looping through 5.2. Iter = 2013 


  iteration 2013; minNextMutationTime = 1839; timeNextPopSample = 1829; popParams.size() = 1

 We are SAMPLING at time 1829



*** Looping through 5.2. Iter = 2014 


  iteration 2014; minNextMutationTime = 1840; timeNextPopSample = 1830; popParams.size() = 1

 We are SAMPLING at time 1830



*** Looping through 5.2. Iter = 2015 


  iteration 2015; minNextMutationTime = 1841; timeNextPopSample = 1831; popParams.size() = 1

 We are SAMPLING at time 1831



*** Looping through 5.2. Iter = 2016 


  iteration 2016; minNextMutationTime = 1842; timeNextPopSample = 1832; popParams.size() = 1

 We are SAMPLING at time 1832



*** Looping through 5.2. Iter = 2017 


  iteration 2017; minNextMutationTime = 1843; timeNextPopSample = 1833; popParams.size() = 1

 We are SAMPLING at time 1833



*** Looping through 5.2. Iter = 2018 


  iteration 2018; minNextMutationTime = 1833.68; timeNextPopSample = 1834; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 2019 


  iteration 2019; minNextMutationTime = 1844; timeNextPopSample = 1834; popParams.size() = 2

 We are SAMPLING at time 1834



*** Looping through 5.2. Iter = 2020 


  iteration 2020; minNextMutationTime = 1834.32; timeNextPopSample = 1835; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 2021 


  iteration 2021; minNextMutationTime = 1845; timeNextPopSample = 1835; popParams.size() = 2

 We are SAMPLING at time 1835



*** Looping through 5.2. Iter = 2022 


  iteration 2022; minNextMutationTime = 1846; timeNextPopSample = 1836; popParams.size() = 2

 We are SAMPLING at time 1836



*** Looping through 5.2. Iter = 2023 


  iteration 2023; minNextMutationTime = 1847; timeNextPopSample = 1837; popParams.size() = 2

 We are SAMPLING at time 1837



*** Looping through 5.2. Iter = 2024 


  iteration 2024; minNextMutationTime = 1848; timeNextPopSample = 1838; popParams.size() = 2

 We are SAMPLING at time 1838



*** Looping through 5.2. Iter = 2025 


  iteration 2025; minNextMutationTime = 1849; timeNextPopSample = 1839; popParams.size() = 2

 We are SAMPLING at time 1839



*** Looping through 5.2. Iter = 2026 


  iteration 2026; minNextMutationTime = 1850; timeNextPopSample = 1840; popParams.size() = 2

 We are SAMPLING at time 1840



*** Looping through 5.2. Iter = 2027 


  iteration 2027; minNextMutationTime = 1851; timeNextPopSample = 1841; popParams.size() = 2

 We are SAMPLING at time 1841



*** Looping through 5.2. Iter = 2028 


  iteration 2028; minNextMutationTime = 1852; timeNextPopSample = 1842; popParams.size() = 2

 We are SAMPLING at time 1842



*** Looping through 5.2. Iter = 2029 


  iteration 2029; minNextMutationTime = 1853; timeNextPopSample = 1843; popParams.size() = 2

 We are SAMPLING at time 1843



*** Looping through 5.2. Iter = 2030 


  iteration 2030; minNextMutationTime = 1854; timeNextPopSample = 1844; popParams.size() = 1

 We are SAMPLING at time 1844



*** Looping through 5.2. Iter = 2031 


  iteration 2031; minNextMutationTime = 1855; timeNextPopSample = 1845; popParams.size() = 1

 We are SAMPLING at time 1845



*** Looping through 5.2. Iter = 2032 


  iteration 2032; minNextMutationTime = 1856; timeNextPopSample = 1846; popParams.size() = 1

 We are SAMPLING at time 1846



*** Looping through 5.2. Iter = 2033 


  iteration 2033; minNextMutationTime = 1857; timeNextPopSample = 1847; popParams.size() = 1

 We are SAMPLING at time 1847



*** Looping through 5.2. Iter = 2034 


  iteration 2034; minNextMutationTime = 1858; timeNextPopSample = 1848; popParams.size() = 1

 We are SAMPLING at time 1848



*** Looping through 5.2. Iter = 2035 


  iteration 2035; minNextMutationTime = 1859; timeNextPopSample = 1849; popParams.size() = 1

 We are SAMPLING at time 1849



*** Looping through 5.2. Iter = 2036 


  iteration 2036; minNextMutationTime = 1860; timeNextPopSample = 1850; popParams.size() = 1

 We are SAMPLING at time 1850



*** Looping through 5.2. Iter = 2037 


  iteration 2037; minNextMutationTime = 1861; timeNextPopSample = 1851; popParams.size() = 1

 We are SAMPLING at time 1851



*** Looping through 5.2. Iter = 2038 


  iteration 2038; minNextMutationTime = 1862; timeNextPopSample = 1852; popParams.size() = 1

 We are SAMPLING at time 1852



*** Looping through 5.2. Iter = 2039 


  iteration 2039; minNextMutationTime = 1863; timeNextPopSample = 1853; popParams.size() = 1

 We are SAMPLING at time 1853



*** Looping through 5.2. Iter = 2040 


  iteration 2040; minNextMutationTime = 1864; timeNextPopSample = 1854; popParams.size() = 1

 We are SAMPLING at time 1854



*** Looping through 5.2. Iter = 2041 


  iteration 2041; minNextMutationTime = 1865; timeNextPopSample = 1855; popParams.size() = 1

 We are SAMPLING at time 1855



*** Looping through 5.2. Iter = 2042 


  iteration 2042; minNextMutationTime = 1866; timeNextPopSample = 1856; popParams.size() = 1

 We are SAMPLING at time 1856



*** Looping through 5.2. Iter = 2043 


  iteration 2043; minNextMutationTime = 1867; timeNextPopSample = 1857; popParams.size() = 1

 We are SAMPLING at time 1857



*** Looping through 5.2. Iter = 2044 


  iteration 2044; minNextMutationTime = 1857.21; timeNextPopSample = 1858; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 2045 


  iteration 2045; minNextMutationTime = 1868; timeNextPopSample = 1858; popParams.size() = 2

 We are SAMPLING at time 1858



*** Looping through 5.2. Iter = 2046 


  iteration 2046; minNextMutationTime = 1869; timeNextPopSample = 1859; popParams.size() = 1

 We are SAMPLING at time 1859



*** Looping through 5.2. Iter = 2047 


  iteration 2047; minNextMutationTime = 1859.74; timeNextPopSample = 1860; popParams.size() = 1

     Creating new species   1         from species 0


*** Looping through 5.2. Iter = 2048 


  iteration 2048; minNextMutationTime = 1870; timeNextPopSample = 1860; popParams.size() = 2

 We are SAMPLING at time 1860



*** Looping through 5.2. Iter = 2049 


  iteration 2049; minNextMutationTime = 1871; timeNextPopSample = 1861; popParams.size() = 2

 We are SAMPLING at time 1861



*** Looping through 5.2. Iter = 2050 


  iteration 2050; minNextMutationTime = 1872; timeNextPopSample = 1862; popParams.size() = 2

 We are SAMPLING at time 1862



*** Looping through 5.2. Iter = 2051 


  iteration 2051; minNextMutationTime = 1873; timeNextPopSample = 1863; popParams.size() = 2

 We are SAMPLING at time 1863



*** Looping through 5.2. Iter = 2052 


  iteration 2052; minNextMutationTime = 1874; timeNextPopSample = 1864; popParams.size() = 2

 We are SAMPLING at time 1864



*** Looping through 5.2. Iter = 2053 


  iteration 2053; minNextMutationTime = 1864.18; timeNextPopSample = 1865; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 2054 


  iteration 2054; minNextMutationTime = 1875; timeNextPopSample = 1865; popParams.size() = 3

 We are SAMPLING at time 1865



*** Looping through 5.2. Iter = 2055 


  iteration 2055; minNextMutationTime = 1876; timeNextPopSample = 1866; popParams.size() = 3

 We are SAMPLING at time 1866



*** Looping through 5.2. Iter = 2056 


  iteration 2056; minNextMutationTime = 1877; timeNextPopSample = 1867; popParams.size() = 2

 We are SAMPLING at time 1867



*** Looping through 5.2. Iter = 2057 


  iteration 2057; minNextMutationTime = 1878; timeNextPopSample = 1868; popParams.size() = 2

 We are SAMPLING at time 1868



*** Looping through 5.2. Iter = 2058 


  iteration 2058; minNextMutationTime = 1879; timeNextPopSample = 1869; popParams.size() = 2

 We are SAMPLING at time 1869



*** Looping through 5.2. Iter = 2059 


  iteration 2059; minNextMutationTime = 1880; timeNextPopSample = 1870; popParams.size() = 2

 We are SAMPLING at time 1870



*** Looping through 5.2. Iter = 2060 


  iteration 2060; minNextMutationTime = 1881; timeNextPopSample = 1871; popParams.size() = 2

 We are SAMPLING at time 1871



*** Looping through 5.2. Iter = 2061 


  iteration 2061; minNextMutationTime = 1882; timeNextPopSample = 1872; popParams.size() = 2

 We are SAMPLING at time 1872



*** Looping through 5.2. Iter = 2062 


  iteration 2062; minNextMutationTime = 1883; timeNextPopSample = 1873; popParams.size() = 2

 We are SAMPLING at time 1873



*** Looping through 5.2. Iter = 2063 


  iteration 2063; minNextMutationTime = 1884; timeNextPopSample = 1874; popParams.size() = 2

 We are SAMPLING at time 1874



*** Looping through 5.2. Iter = 2064 


  iteration 2064; minNextMutationTime = 1885; timeNextPopSample = 1875; popParams.size() = 2

 We are SAMPLING at time 1875



*** Looping through 5.2. Iter = 2065 


  iteration 2065; minNextMutationTime = 1886; timeNextPopSample = 1876; popParams.size() = 2

 We are SAMPLING at time 1876



*** Looping through 5.2. Iter = 2066 


  iteration 2066; minNextMutationTime = 1876.2; timeNextPopSample = 1877; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 2067 


  iteration 2067; minNextMutationTime = 1887; timeNextPopSample = 1877; popParams.size() = 3

 We are SAMPLING at time 1877



*** Looping through 5.2. Iter = 2068 


  iteration 2068; minNextMutationTime = 1888; timeNextPopSample = 1878; popParams.size() = 2

 We are SAMPLING at time 1878



*** Looping through 5.2. Iter = 2069 


  iteration 2069; minNextMutationTime = 1889; timeNextPopSample = 1879; popParams.size() = 2

 We are SAMPLING at time 1879



*** Looping through 5.2. Iter = 2070 


  iteration 2070; minNextMutationTime = 1890; timeNextPopSample = 1880; popParams.size() = 2

 We are SAMPLING at time 1880



*** Looping through 5.2. Iter = 2071 


  iteration 2071; minNextMutationTime = 1891; timeNextPopSample = 1881; popParams.size() = 2

 We are SAMPLING at time 1881



*** Looping through 5.2. Iter = 2072 


  iteration 2072; minNextMutationTime = 1892; timeNextPopSample = 1882; popParams.size() = 2

 We are SAMPLING at time 1882



*** Looping through 5.2. Iter = 2073 


  iteration 2073; minNextMutationTime = 1893; timeNextPopSample = 1883; popParams.size() = 2

 We are SAMPLING at time 1883



*** Looping through 5.2. Iter = 2074 


  iteration 2074; minNextMutationTime = 1894; timeNextPopSample = 1884; popParams.size() = 2

 We are SAMPLING at time 1884



*** Looping through 5.2. Iter = 2075 


  iteration 2075; minNextMutationTime = 1895; timeNextPopSample = 1885; popParams.size() = 2

 We are SAMPLING at time 1885



*** Looping through 5.2. Iter = 2076 


  iteration 2076; minNextMutationTime = 1896; timeNextPopSample = 1886; popParams.size() = 2

 We are SAMPLING at time 1886



*** Looping through 5.2. Iter = 2077 


  iteration 2077; minNextMutationTime = 1897; timeNextPopSample = 1887; popParams.size() = 2

 We are SAMPLING at time 1887



*** Looping through 5.2. Iter = 2078 


  iteration 2078; minNextMutationTime = 1898; timeNextPopSample = 1888; popParams.size() = 2

 We are SAMPLING at time 1888



*** Looping through 5.2. Iter = 2079 


  iteration 2079; minNextMutationTime = 1899; timeNextPopSample = 1889; popParams.size() = 2

 We are SAMPLING at time 1889



*** Looping through 5.2. Iter = 2080 


  iteration 2080; minNextMutationTime = 1900; timeNextPopSample = 1890; popParams.size() = 2

 We are SAMPLING at time 1890



*** Looping through 5.2. Iter = 2081 


  iteration 2081; minNextMutationTime = 1901; timeNextPopSample = 1891; popParams.size() = 2

 We are SAMPLING at time 1891



*** Looping through 5.2. Iter = 2082 


  iteration 2082; minNextMutationTime = 1902; timeNextPopSample = 1892; popParams.size() = 2

 We are SAMPLING at time 1892



*** Looping through 5.2. Iter = 2083 


  iteration 2083; minNextMutationTime = 1903; timeNextPopSample = 1893; popParams.size() = 2

 We are SAMPLING at time 1893



*** Looping through 5.2. Iter = 2084 


  iteration 2084; minNextMutationTime = 1904; timeNextPopSample = 1894; popParams.size() = 2

 We are SAMPLING at time 1894



*** Looping through 5.2. Iter = 2085 


  iteration 2085; minNextMutationTime = 1894.47; timeNextPopSample = 1895; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 2086 


  iteration 2086; minNextMutationTime = 1905; timeNextPopSample = 1895; popParams.size() = 3

 We are SAMPLING at time 1895



*** Looping through 5.2. Iter = 2087 


  iteration 2087; minNextMutationTime = 1906; timeNextPopSample = 1896; popParams.size() = 3

 We are SAMPLING at time 1896



*** Looping through 5.2. Iter = 2088 


  iteration 2088; minNextMutationTime = 1907; timeNextPopSample = 1897; popParams.size() = 2

 We are SAMPLING at time 1897



*** Looping through 5.2. Iter = 2089 


  iteration 2089; minNextMutationTime = 1897.22; timeNextPopSample = 1898; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 2090 


  iteration 2090; minNextMutationTime = 1897.39; timeNextPopSample = 1898; popParams.size() = 3

     Creating new species   3         from species 0


*** Looping through 5.2. Iter = 2091 


  iteration 2091; minNextMutationTime = 1908; timeNextPopSample = 1898; popParams.size() = 4

 We are SAMPLING at time 1898



*** Looping through 5.2. Iter = 2092 


  iteration 2092; minNextMutationTime = 1909; timeNextPopSample = 1899; popParams.size() = 4

 We are SAMPLING at time 1899



*** Looping through 5.2. Iter = 2093 


  iteration 2093; minNextMutationTime = 1910; timeNextPopSample = 1900; popParams.size() = 4

 We are SAMPLING at time 1900



*** Looping through 5.2. Iter = 2094 


  iteration 2094; minNextMutationTime = 1911; timeNextPopSample = 1901; popParams.size() = 3

 We are SAMPLING at time 1901



*** Looping through 5.2. Iter = 2095 


  iteration 2095; minNextMutationTime = 1901.25; timeNextPopSample = 1902; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 2096 


  iteration 2096; minNextMutationTime = 1912; timeNextPopSample = 1902; popParams.size() = 3

 We are SAMPLING at time 1902



*** Looping through 5.2. Iter = 2097 


  iteration 2097; minNextMutationTime = 1913; timeNextPopSample = 1903; popParams.size() = 3

 We are SAMPLING at time 1903



*** Looping through 5.2. Iter = 2098 


  iteration 2098; minNextMutationTime = 1914; timeNextPopSample = 1904; popParams.size() = 3

 We are SAMPLING at time 1904



*** Looping through 5.2. Iter = 2099 


  iteration 2099; minNextMutationTime = 1915; timeNextPopSample = 1905; popParams.size() = 2

 We are SAMPLING at time 1905



*** Looping through 5.2. Iter = 2100 


  iteration 2100; minNextMutationTime = 1916; timeNextPopSample = 1906; popParams.size() = 2

 We are SAMPLING at time 1906



*** Looping through 5.2. Iter = 2101 


  iteration 2101; minNextMutationTime = 1917; timeNextPopSample = 1907; popParams.size() = 2

 We are SAMPLING at time 1907



*** Looping through 5.2. Iter = 2102 


  iteration 2102; minNextMutationTime = 1918; timeNextPopSample = 1908; popParams.size() = 2

 We are SAMPLING at time 1908



*** Looping through 5.2. Iter = 2103 


  iteration 2103; minNextMutationTime = 1919; timeNextPopSample = 1909; popParams.size() = 2

 We are SAMPLING at time 1909



*** Looping through 5.2. Iter = 2104 


  iteration 2104; minNextMutationTime = 1920; timeNextPopSample = 1910; popParams.size() = 2

 We are SAMPLING at time 1910



*** Looping through 5.2. Iter = 2105 


  iteration 2105; minNextMutationTime = 1921; timeNextPopSample = 1911; popParams.size() = 2

 We are SAMPLING at time 1911



*** Looping through 5.2. Iter = 2106 


  iteration 2106; minNextMutationTime = 1922; timeNextPopSample = 1912; popParams.size() = 2

 We are SAMPLING at time 1912



*** Looping through 5.2. Iter = 2107 


  iteration 2107; minNextMutationTime = 1923; timeNextPopSample = 1913; popParams.size() = 2

 We are SAMPLING at time 1913



*** Looping through 5.2. Iter = 2108 


  iteration 2108; minNextMutationTime = 1913.12; timeNextPopSample = 1914; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 2109 


  iteration 2109; minNextMutationTime = 1924; timeNextPopSample = 1914; popParams.size() = 3

 We are SAMPLING at time 1914



*** Looping through 5.2. Iter = 2110 


  iteration 2110; minNextMutationTime = 1925; timeNextPopSample = 1915; popParams.size() = 2

 We are SAMPLING at time 1915



*** Looping through 5.2. Iter = 2111 


  iteration 2111; minNextMutationTime = 1926; timeNextPopSample = 1916; popParams.size() = 2

 We are SAMPLING at time 1916



*** Looping through 5.2. Iter = 2112 


  iteration 2112; minNextMutationTime = 1927; timeNextPopSample = 1917; popParams.size() = 2

 We are SAMPLING at time 1917



*** Looping through 5.2. Iter = 2113 


  iteration 2113; minNextMutationTime = 1917.13; timeNextPopSample = 1918; popParams.size() = 2

     Creating new species   2         from species 0


*** Looping through 5.2. Iter = 2114 


  iteration 2114; minNextMutationTime = 1928; timeNextPopSample = 1918; popParams.size() = 3

 We are SAMPLING at time 1918



*** Looping through 5.2. Iter = 2115 


  iteration 2115; minNextMutationTime = 1918.11; timeNextPopSample = 1919; popParams.size() = 3

     Creating new species   3         from species 0


*** Looping through 5.2. Iter = 2116 


  iteration 2116; minNextMutationTime = 1929; timeNextPopSample = 1919; popParams.size() = 4

 We are SAMPLING at time 1919



*** Looping through 5.2. Iter = 2117 


  iteration 2117; minNextMutationTime = 1930; timeNextPopSample = 1920; popParams.size() = 4

 We are SAMPLING at time 1920



*** Looping through 5.2. Iter = 2118 


  iteration 2118; minNextMutationTime = 1931; timeNextPopSample = 1921; popParams.size() = 3

 We are SAMPLING at time 1921



*** Looping through 5.2. Iter = 2119 


  iteration 2119; minNextMutationTime = 1921.55; timeNextPopSample = 1922; popParams.size() = 3

     Creating new species   3         from species 0


*** Looping through 5.2. Iter = 2120 


  iteration 2120; minNextMutationTime = 1932; timeNextPopSample = 1922; popParams.size() = 4

 We are SAMPLING at time 1922



*** Looping through 5.2. Iter = 2121 


  iteration 2121; minNextMutationTime = 1933; timeNextPopSample = 1923; popParams.size() = 4

 We are SAMPLING at time 1923



*** Looping through 5.2. Iter = 2122 


  iteration 2122; minNextMutationTime = 1934; timeNextPopSample = 1924; popParams.size() = 4

 We are SAMPLING at time 1924



*** Looping through 5.2. Iter = 2123 


  iteration 2123; minNextMutationTime = 1924.06; timeNextPopSample = 1925; popParams.size() = 4

     Mutated to existing species 1 (Genotype = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 1)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 1)
 New popSize = 14717



*** Looping through 5.2. Iter = 2124 


  iteration 2124; minNextMutationTime = 1935; timeNextPopSample = 1925; popParams.size() = 4

 We are SAMPLING at time 1925



*** Looping through 5.2. Iter = 2125 


  iteration 2125; minNextMutationTime = 1936; timeNextPopSample = 1926; popParams.size() = 4

 We are SAMPLING at time 1926



*** Looping through 5.2. Iter = 2126 


  iteration 2126; minNextMutationTime = 1937; timeNextPopSample = 1927; popParams.size() = 4

 We are SAMPLING at time 1927



*** Looping through 5.2. Iter = 2127 


  iteration 2127; minNextMutationTime = 1938; timeNextPopSample = 1928; popParams.size() = 3

 We are SAMPLING at time 1928



*** Looping through 5.2. Iter = 2128 


  iteration 2128; minNextMutationTime = 1928.6; timeNextPopSample = 1929; popParams.size() = 3

     Creating new species   3         from species 1


*** Looping through 5.2. Iter = 2129 


  iteration 2129; minNextMutationTime = 1939; timeNextPopSample = 1929; popParams.size() = 4

 We are SAMPLING at time 1929



*** Looping through 5.2. Iter = 2130 


  iteration 2130; minNextMutationTime = 1940; timeNextPopSample = 1930; popParams.size() = 4

 We are SAMPLING at time 1930



*** Looping through 5.2. Iter = 2131 


  iteration 2131; minNextMutationTime = 1930.06; timeNextPopSample = 1931; popParams.size() = 3

     Creating new species   3         from species 1


*** Looping through 5.2. Iter = 2132 


  iteration 2132; minNextMutationTime = 1941; timeNextPopSample = 1931; popParams.size() = 4

 We are SAMPLING at time 1931



*** Looping through 5.2. Iter = 2133 


  iteration 2133; minNextMutationTime = 1931.24; timeNextPopSample = 1932; popParams.size() = 4

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 2



*** Looping through 5.2. Iter = 2134 


  iteration 2134; minNextMutationTime = 1942; timeNextPopSample = 1932; popParams.size() = 4

 We are SAMPLING at time 1932



*** Looping through 5.2. Iter = 2135 


  iteration 2135; minNextMutationTime = 1943; timeNextPopSample = 1933; popParams.size() = 4

 We are SAMPLING at time 1933



*** Looping through 5.2. Iter = 2136 


  iteration 2136; minNextMutationTime = 1933.75; timeNextPopSample = 1934; popParams.size() = 4

     Creating new species   4         from species 1


*** Looping through 5.2. Iter = 2137 


  iteration 2137; minNextMutationTime = 1944; timeNextPopSample = 1934; popParams.size() = 5

 We are SAMPLING at time 1934



*** Looping through 5.2. Iter = 2138 


  iteration 2138; minNextMutationTime = 1934.56; timeNextPopSample = 1935; popParams.size() = 5

     Creating new species   5         from species 0


*** Looping through 5.2. Iter = 2139 


  iteration 2139; minNextMutationTime = 1945; timeNextPopSample = 1935; popParams.size() = 6

 We are SAMPLING at time 1935



*** Looping through 5.2. Iter = 2140 


  iteration 2140; minNextMutationTime = 1946; timeNextPopSample = 1936; popParams.size() = 5

 We are SAMPLING at time 1936



*** Looping through 5.2. Iter = 2141 


  iteration 2141; minNextMutationTime = 1936.11; timeNextPopSample = 1937; popParams.size() = 4

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 42



*** Looping through 5.2. Iter = 2142 


  iteration 2142; minNextMutationTime = 1947; timeNextPopSample = 1937; popParams.size() = 4

 We are SAMPLING at time 1937



*** Looping through 5.2. Iter = 2143 


  iteration 2143; minNextMutationTime = 1948; timeNextPopSample = 1938; popParams.size() = 4

 We are SAMPLING at time 1938



*** Looping through 5.2. Iter = 2144 


  iteration 2144; minNextMutationTime = 1949; timeNextPopSample = 1939; popParams.size() = 4

 We are SAMPLING at time 1939



*** Looping through 5.2. Iter = 2145 


  iteration 2145; minNextMutationTime = 1950; timeNextPopSample = 1940; popParams.size() = 4

 We are SAMPLING at time 1940



*** Looping through 5.2. Iter = 2146 


  iteration 2146; minNextMutationTime = 1940.32; timeNextPopSample = 1941; popParams.size() = 4

     Mutated to existing species 1 (Genotype = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 1)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 1)
 New popSize = 76258



*** Looping through 5.2. Iter = 2147 


  iteration 2147; minNextMutationTime = 1951; timeNextPopSample = 1941; popParams.size() = 4

 We are SAMPLING at time 1941



*** Looping through 5.2. Iter = 2148 


  iteration 2148; minNextMutationTime = 1952; timeNextPopSample = 1942; popParams.size() = 4

 We are SAMPLING at time 1942



*** Looping through 5.2. Iter = 2149 


  iteration 2149; minNextMutationTime = 1953; timeNextPopSample = 1943; popParams.size() = 4

 We are SAMPLING at time 1943



*** Looping through 5.2. Iter = 2150 


  iteration 2150; minNextMutationTime = 1954; timeNextPopSample = 1944; popParams.size() = 4

 We are SAMPLING at time 1944



*** Looping through 5.2. Iter = 2151 


  iteration 2151; minNextMutationTime = 1955; timeNextPopSample = 1945; popParams.size() = 4

 We are SAMPLING at time 1945



*** Looping through 5.2. Iter = 2152 


  iteration 2152; minNextMutationTime = 1945.21; timeNextPopSample = 1946; popParams.size() = 4

     Creating new species   4         from species 1


*** Looping through 5.2. Iter = 2153 


  iteration 2153; minNextMutationTime = 1945.55; timeNextPopSample = 1946; popParams.size() = 5

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 2



*** Looping through 5.2. Iter = 2154 


  iteration 2154; minNextMutationTime = 1956; timeNextPopSample = 1946; popParams.size() = 5

 We are SAMPLING at time 1946



*** Looping through 5.2. Iter = 2155 


  iteration 2155; minNextMutationTime = 1957; timeNextPopSample = 1947; popParams.size() = 5

 We are SAMPLING at time 1947



*** Looping through 5.2. Iter = 2156 


  iteration 2156; minNextMutationTime = 1958; timeNextPopSample = 1948; popParams.size() = 5

 We are SAMPLING at time 1948



*** Looping through 5.2. Iter = 2157 


  iteration 2157; minNextMutationTime = 1959; timeNextPopSample = 1949; popParams.size() = 5

 We are SAMPLING at time 1949



*** Looping through 5.2. Iter = 2158 


  iteration 2158; minNextMutationTime = 1949.3; timeNextPopSample = 1950; popParams.size() = 5

     Creating new species   5         from species 1


*** Looping through 5.2. Iter = 2159 


  iteration 2159; minNextMutationTime = 1960; timeNextPopSample = 1950; popParams.size() = 6

 We are SAMPLING at time 1950



*** Looping through 5.2. Iter = 2160 


  iteration 2160; minNextMutationTime = 1950.07; timeNextPopSample = 1951; popParams.size() = 6

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 111



*** Looping through 5.2. Iter = 2161 


  iteration 2161; minNextMutationTime = 1950.15; timeNextPopSample = 1951; popParams.size() = 6

     Creating new species   6         from species 1


*** Looping through 5.2. Iter = 2162 


  iteration 2162; minNextMutationTime = 1950.55; timeNextPopSample = 1951; popParams.size() = 7

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 126



*** Looping through 5.2. Iter = 2163 


  iteration 2163; minNextMutationTime = 1950.83; timeNextPopSample = 1951; popParams.size() = 7

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 6



*** Looping through 5.2. Iter = 2164 


  iteration 2164; minNextMutationTime = 1961; timeNextPopSample = 1951; popParams.size() = 7

 We are SAMPLING at time 1951



*** Looping through 5.2. Iter = 2165 


  iteration 2165; minNextMutationTime = 1951.13; timeNextPopSample = 1952; popParams.size() = 7

     Creating new species   7         from species 1


*** Looping through 5.2. Iter = 2166 


  iteration 2166; minNextMutationTime = 1951.28; timeNextPopSample = 1952; popParams.size() = 8

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 2



*** Looping through 5.2. Iter = 2167 


  iteration 2167; minNextMutationTime = 1951.95; timeNextPopSample = 1952; popParams.size() = 8

     Mutated to existing species 2 (Genotype = 0000000000000000000000000000000000000000000000000000000000001000; sp_id = 8)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 8)
 New popSize = 66



*** Looping through 5.2. Iter = 2168 


  iteration 2168; minNextMutationTime = 1962; timeNextPopSample = 1952; popParams.size() = 8

 We are SAMPLING at time 1952



*** Looping through 5.2. Iter = 2169 


  iteration 2169; minNextMutationTime = 1952.62; timeNextPopSample = 1953; popParams.size() = 7

     Creating new species   7         from species 1


*** Looping through 5.2. Iter = 2170 


  iteration 2170; minNextMutationTime = 1952.66; timeNextPopSample = 1953; popParams.size() = 8

     Mutated to existing species 1 (Genotype = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 1)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 1)
 New popSize = 259294



*** Looping through 5.2. Iter = 2171 


  iteration 2171; minNextMutationTime = 1952.96; timeNextPopSample = 1953; popParams.size() = 8

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 12



*** Looping through 5.2. Iter = 2172 


  iteration 2172; minNextMutationTime = 1963; timeNextPopSample = 1953; popParams.size() = 8

 We are SAMPLING at time 1953



*** Looping through 5.2. Iter = 2173 


  iteration 2173; minNextMutationTime = 1953.1; timeNextPopSample = 1954; popParams.size() = 8

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 2



*** Looping through 5.2. Iter = 2174 


  iteration 2174; minNextMutationTime = 1953.35; timeNextPopSample = 1954; popParams.size() = 8

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 2



*** Looping through 5.2. Iter = 2175 


  iteration 2175; minNextMutationTime = 1953.54; timeNextPopSample = 1954; popParams.size() = 8

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 205



*** Looping through 5.2. Iter = 2176 


  iteration 2176; minNextMutationTime = 1964; timeNextPopSample = 1954; popParams.size() = 8

 We are SAMPLING at time 1954



*** Looping through 5.2. Iter = 2177 


  iteration 2177; minNextMutationTime = 1954.38; timeNextPopSample = 1955; popParams.size() = 8

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 3



*** Looping through 5.2. Iter = 2178 


  iteration 2178; minNextMutationTime = 1954.54; timeNextPopSample = 1955; popParams.size() = 8

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 5



*** Looping through 5.2. Iter = 2179 


  iteration 2179; minNextMutationTime = 1954.55; timeNextPopSample = 1955; popParams.size() = 8

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 13



*** Looping through 5.2. Iter = 2180 


  iteration 2180; minNextMutationTime = 1954.81; timeNextPopSample = 1955; popParams.size() = 8

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 16



*** Looping through 5.2. Iter = 2181 


  iteration 2181; minNextMutationTime = 1965; timeNextPopSample = 1955; popParams.size() = 8

 We are SAMPLING at time 1955



*** Looping through 5.2. Iter = 2182 


  iteration 2182; minNextMutationTime = 1966; timeNextPopSample = 1956; popParams.size() = 8

 We are SAMPLING at time 1956



*** Looping through 5.2. Iter = 2183 


  iteration 2183; minNextMutationTime = 1956.56; timeNextPopSample = 1957; popParams.size() = 7

     Creating new species   7         from species 1


*** Looping through 5.2. Iter = 2184 


  iteration 2184; minNextMutationTime = 1967; timeNextPopSample = 1957; popParams.size() = 8

 We are SAMPLING at time 1957



*** Looping through 5.2. Iter = 2185 


  iteration 2185; minNextMutationTime = 1957.12; timeNextPopSample = 1958; popParams.size() = 8

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 15



*** Looping through 5.2. Iter = 2186 


  iteration 2186; minNextMutationTime = 1968; timeNextPopSample = 1958; popParams.size() = 8

 We are SAMPLING at time 1958



*** Looping through 5.2. Iter = 2187 


  iteration 2187; minNextMutationTime = 1958.47; timeNextPopSample = 1959; popParams.size() = 7

     Creating new species   7         from species 1


*** Looping through 5.2. Iter = 2188 


  iteration 2188; minNextMutationTime = 1969; timeNextPopSample = 1959; popParams.size() = 8

 We are SAMPLING at time 1959



*** Looping through 5.2. Iter = 2189 


  iteration 2189; minNextMutationTime = 1959.47; timeNextPopSample = 1960; popParams.size() = 8

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 28



*** Looping through 5.2. Iter = 2190 


  iteration 2190; minNextMutationTime = 1959.73; timeNextPopSample = 1960; popParams.size() = 8

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 32



*** Looping through 5.2. Iter = 2191 


  iteration 2191; minNextMutationTime = 1970; timeNextPopSample = 1960; popParams.size() = 8

 We are SAMPLING at time 1960



*** Looping through 5.2. Iter = 2192 


  iteration 2192; minNextMutationTime = 1960.11; timeNextPopSample = 1961; popParams.size() = 8

     Creating new species   8         from species 1


*** Looping through 5.2. Iter = 2193 


  iteration 2193; minNextMutationTime = 1960.48; timeNextPopSample = 1961; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 1



*** Looping through 5.2. Iter = 2194 


  iteration 2194; minNextMutationTime = 1960.63; timeNextPopSample = 1961; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 31



*** Looping through 5.2. Iter = 2195 


  iteration 2195; minNextMutationTime = 1960.74; timeNextPopSample = 1961; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 23



*** Looping through 5.2. Iter = 2196 


  iteration 2196; minNextMutationTime = 1971; timeNextPopSample = 1961; popParams.size() = 9

 We are SAMPLING at time 1961



*** Looping through 5.2. Iter = 2197 


  iteration 2197; minNextMutationTime = 1961.11; timeNextPopSample = 1962; popParams.size() = 8

     Mutated to existing species 2 (Genotype = 0000000000000000000000000000000000000000000000000000000000001000; sp_id = 8)
 from species 0 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000000; sp_id = 8)
 New popSize = 82



*** Looping through 5.2. Iter = 2198 


  iteration 2198; minNextMutationTime = 1961.4; timeNextPopSample = 1962; popParams.size() = 8

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 952



*** Looping through 5.2. Iter = 2199 


  iteration 2199; minNextMutationTime = 1972; timeNextPopSample = 1962; popParams.size() = 8

 We are SAMPLING at time 1962



*** Looping through 5.2. Iter = 2200 


  iteration 2200; minNextMutationTime = 1962.12; timeNextPopSample = 1963; popParams.size() = 8

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 2



*** Looping through 5.2. Iter = 2201 


  iteration 2201; minNextMutationTime = 1962.45; timeNextPopSample = 1963; popParams.size() = 8

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 34



*** Looping through 5.2. Iter = 2202 


  iteration 2202; minNextMutationTime = 1962.53; timeNextPopSample = 1963; popParams.size() = 8

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 48



*** Looping through 5.2. Iter = 2203 


  iteration 2203; minNextMutationTime = 1962.57; timeNextPopSample = 1963; popParams.size() = 8

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 23



*** Looping through 5.2. Iter = 2204 


  iteration 2204; minNextMutationTime = 1962.85; timeNextPopSample = 1963; popParams.size() = 8

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 36



*** Looping through 5.2. Iter = 2205 


  iteration 2205; minNextMutationTime = 1973; timeNextPopSample = 1963; popParams.size() = 8

 We are SAMPLING at time 1963



*** Looping through 5.2. Iter = 2206 


  iteration 2206; minNextMutationTime = 1963.05; timeNextPopSample = 1964; popParams.size() = 8

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 56



*** Looping through 5.2. Iter = 2207 


  iteration 2207; minNextMutationTime = 1963.06; timeNextPopSample = 1964; popParams.size() = 8

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 55



*** Looping through 5.2. Iter = 2208 


  iteration 2208; minNextMutationTime = 1963.28; timeNextPopSample = 1964; popParams.size() = 8

     Creating new species   8         from species 1


*** Looping through 5.2. Iter = 2209 


  iteration 2209; minNextMutationTime = 1963.29; timeNextPopSample = 1964; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 47



*** Looping through 5.2. Iter = 2210 


  iteration 2210; minNextMutationTime = 1963.38; timeNextPopSample = 1964; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 1131



*** Looping through 5.2. Iter = 2211 


  iteration 2211; minNextMutationTime = 1963.6; timeNextPopSample = 1964; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 1176



*** Looping through 5.2. Iter = 2212 


  iteration 2212; minNextMutationTime = 1963.6; timeNextPopSample = 1964; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 1179



*** Looping through 5.2. Iter = 2213 


  iteration 2213; minNextMutationTime = 1963.82; timeNextPopSample = 1964; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 85



*** Looping through 5.2. Iter = 2214 


  iteration 2214; minNextMutationTime = 1963.84; timeNextPopSample = 1964; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 1



*** Looping through 5.2. Iter = 2215 


  iteration 2215; minNextMutationTime = 1964; timeNextPopSample = 1964; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 1



*** Looping through 5.2. Iter = 2216 


  iteration 2216; minNextMutationTime = 1974; timeNextPopSample = 1964; popParams.size() = 9

 We are SAMPLING at time 1964



*** Looping through 5.2. Iter = 2217 


  iteration 2217; minNextMutationTime = 1964.51; timeNextPopSample = 1965; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 1



*** Looping through 5.2. Iter = 2218 


  iteration 2218; minNextMutationTime = 1964.7; timeNextPopSample = 1965; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 2



*** Looping through 5.2. Iter = 2219 


  iteration 2219; minNextMutationTime = 1964.78; timeNextPopSample = 1965; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 3



*** Looping through 5.2. Iter = 2220 


  iteration 2220; minNextMutationTime = 1964.78; timeNextPopSample = 1965; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 53



*** Looping through 5.2. Iter = 2221 


  iteration 2221; minNextMutationTime = 1964.93; timeNextPopSample = 1965; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 91



*** Looping through 5.2. Iter = 2222 


  iteration 2222; minNextMutationTime = 1965; timeNextPopSample = 1965; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 1



*** Looping through 5.2. Iter = 2223 


  iteration 2223; minNextMutationTime = 1975; timeNextPopSample = 1965; popParams.size() = 9

 We are SAMPLING at time 1965



*** Looping through 5.2. Iter = 2224 


  iteration 2224; minNextMutationTime = 1965.13; timeNextPopSample = 1966; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 4



*** Looping through 5.2. Iter = 2225 


  iteration 2225; minNextMutationTime = 1965.34; timeNextPopSample = 1966; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 2



*** Looping through 5.2. Iter = 2226 


  iteration 2226; minNextMutationTime = 1965.92; timeNextPopSample = 1966; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 1399



*** Looping through 5.2. Iter = 2227 


  iteration 2227; minNextMutationTime = 1965.92; timeNextPopSample = 1966; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 3



*** Looping through 5.2. Iter = 2228 


  iteration 2228; minNextMutationTime = 1976; timeNextPopSample = 1966; popParams.size() = 9

 We are SAMPLING at time 1966



*** Looping through 5.2. Iter = 2229 


  iteration 2229; minNextMutationTime = 1966.14; timeNextPopSample = 1967; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 5



*** Looping through 5.2. Iter = 2230 


  iteration 2230; minNextMutationTime = 1966.16; timeNextPopSample = 1967; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 3



*** Looping through 5.2. Iter = 2231 


  iteration 2231; minNextMutationTime = 1966.18; timeNextPopSample = 1967; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 1438



*** Looping through 5.2. Iter = 2232 


  iteration 2232; minNextMutationTime = 1966.52; timeNextPopSample = 1967; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 1556



*** Looping through 5.2. Iter = 2233 


  iteration 2233; minNextMutationTime = 1966.73; timeNextPopSample = 1967; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 100



*** Looping through 5.2. Iter = 2234 


  iteration 2234; minNextMutationTime = 1966.81; timeNextPopSample = 1967; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 3



*** Looping through 5.2. Iter = 2235 


  iteration 2235; minNextMutationTime = 1966.83; timeNextPopSample = 1967; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 62



*** Looping through 5.2. Iter = 2236 


  iteration 2236; minNextMutationTime = 1966.86; timeNextPopSample = 1967; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 5



*** Looping through 5.2. Iter = 2237 


  iteration 2237; minNextMutationTime = 1966.95; timeNextPopSample = 1967; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 100



*** Looping through 5.2. Iter = 2238 


  iteration 2238; minNextMutationTime = 1977; timeNextPopSample = 1967; popParams.size() = 9

 We are SAMPLING at time 1967



*** Looping through 5.2. Iter = 2239 


  iteration 2239; minNextMutationTime = 1967.13; timeNextPopSample = 1968; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 1563



*** Looping through 5.2. Iter = 2240 


  iteration 2240; minNextMutationTime = 1967.16; timeNextPopSample = 1968; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 48



*** Looping through 5.2. Iter = 2241 


  iteration 2241; minNextMutationTime = 1967.33; timeNextPopSample = 1968; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 4



*** Looping through 5.2. Iter = 2242 


  iteration 2242; minNextMutationTime = 1967.66; timeNextPopSample = 1968; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 53



*** Looping through 5.2. Iter = 2243 


  iteration 2243; minNextMutationTime = 1967.69; timeNextPopSample = 1968; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 5



*** Looping through 5.2. Iter = 2244 


  iteration 2244; minNextMutationTime = 1967.8; timeNextPopSample = 1968; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 3



*** Looping through 5.2. Iter = 2245 


  iteration 2245; minNextMutationTime = 1967.85; timeNextPopSample = 1968; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 65



*** Looping through 5.2. Iter = 2246 


  iteration 2246; minNextMutationTime = 1978; timeNextPopSample = 1968; popParams.size() = 9

 We are SAMPLING at time 1968



*** Looping through 5.2. Iter = 2247 


  iteration 2247; minNextMutationTime = 1968.04; timeNextPopSample = 1969; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 70



*** Looping through 5.2. Iter = 2248 


  iteration 2248; minNextMutationTime = 1968.06; timeNextPopSample = 1969; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 59



*** Looping through 5.2. Iter = 2249 


  iteration 2249; minNextMutationTime = 1968.06; timeNextPopSample = 1969; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 61



*** Looping through 5.2. Iter = 2250 


  iteration 2250; minNextMutationTime = 1968.21; timeNextPopSample = 1969; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 116



*** Looping through 5.2. Iter = 2251 


  iteration 2251; minNextMutationTime = 1968.46; timeNextPopSample = 1969; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 70



*** Looping through 5.2. Iter = 2252 


  iteration 2252; minNextMutationTime = 1968.53; timeNextPopSample = 1969; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 1614



*** Looping through 5.2. Iter = 2253 


  iteration 2253; minNextMutationTime = 1968.75; timeNextPopSample = 1969; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 3



*** Looping through 5.2. Iter = 2254 


  iteration 2254; minNextMutationTime = 1968.81; timeNextPopSample = 1969; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 5



*** Looping through 5.2. Iter = 2255 


  iteration 2255; minNextMutationTime = 1979; timeNextPopSample = 1969; popParams.size() = 9

 We are SAMPLING at time 1969



*** Looping through 5.2. Iter = 2256 


  iteration 2256; minNextMutationTime = 1969.01; timeNextPopSample = 1970; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 70



*** Looping through 5.2. Iter = 2257 


  iteration 2257; minNextMutationTime = 1969.09; timeNextPopSample = 1970; popParams.size() = 9

     Creating new species   9         from species 0


*** Looping through 5.2. Iter = 2258 


  iteration 2258; minNextMutationTime = 1969.31; timeNextPopSample = 1970; popParams.size() = 10

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 1939



*** Looping through 5.2. Iter = 2259 


  iteration 2259; minNextMutationTime = 1969.36; timeNextPopSample = 1970; popParams.size() = 10

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 3



*** Looping through 5.2. Iter = 2260 


  iteration 2260; minNextMutationTime = 1969.4; timeNextPopSample = 1970; popParams.size() = 10

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 4



*** Looping through 5.2. Iter = 2261 


  iteration 2261; minNextMutationTime = 1969.42; timeNextPopSample = 1970; popParams.size() = 10

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 2016



*** Looping through 5.2. Iter = 2262 


  iteration 2262; minNextMutationTime = 1969.47; timeNextPopSample = 1970; popParams.size() = 10

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 76



*** Looping through 5.2. Iter = 2263 


  iteration 2263; minNextMutationTime = 1969.61; timeNextPopSample = 1970; popParams.size() = 10

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 93



*** Looping through 5.2. Iter = 2264 


  iteration 2264; minNextMutationTime = 1969.63; timeNextPopSample = 1970; popParams.size() = 10

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 2113



*** Looping through 5.2. Iter = 2265 


  iteration 2265; minNextMutationTime = 1969.66; timeNextPopSample = 1970; popParams.size() = 10

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 2137



*** Looping through 5.2. Iter = 2266 


  iteration 2266; minNextMutationTime = 1969.7; timeNextPopSample = 1970; popParams.size() = 10

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 97



*** Looping through 5.2. Iter = 2267 


  iteration 2267; minNextMutationTime = 1969.94; timeNextPopSample = 1970; popParams.size() = 10

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 11



*** Looping through 5.2. Iter = 2268 


  iteration 2268; minNextMutationTime = 1969.99; timeNextPopSample = 1970; popParams.size() = 10

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 2306



*** Looping through 5.2. Iter = 2269 


  iteration 2269; minNextMutationTime = 1980; timeNextPopSample = 1970; popParams.size() = 10

 We are SAMPLING at time 1970



*** Looping through 5.2. Iter = 2270 


  iteration 2270; minNextMutationTime = 1970.18; timeNextPopSample = 1971; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 105



*** Looping through 5.2. Iter = 2271 


  iteration 2271; minNextMutationTime = 1970.25; timeNextPopSample = 1971; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 15



*** Looping through 5.2. Iter = 2272 


  iteration 2272; minNextMutationTime = 1970.3; timeNextPopSample = 1971; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 16



*** Looping through 5.2. Iter = 2273 


  iteration 2273; minNextMutationTime = 1970.38; timeNextPopSample = 1971; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 2339



*** Looping through 5.2. Iter = 2274 


  iteration 2274; minNextMutationTime = 1970.4; timeNextPopSample = 1971; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 2



*** Looping through 5.2. Iter = 2275 


  iteration 2275; minNextMutationTime = 1970.41; timeNextPopSample = 1971; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 17



*** Looping through 5.2. Iter = 2276 


  iteration 2276; minNextMutationTime = 1970.55; timeNextPopSample = 1971; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 3



*** Looping through 5.2. Iter = 2277 


  iteration 2277; minNextMutationTime = 1981; timeNextPopSample = 1971; popParams.size() = 9

 We are SAMPLING at time 1971



*** Looping through 5.2. Iter = 2278 


  iteration 2278; minNextMutationTime = 1971; timeNextPopSample = 1972; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 107



*** Looping through 5.2. Iter = 2279 


  iteration 2279; minNextMutationTime = 1971.04; timeNextPopSample = 1972; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 212



*** Looping through 5.2. Iter = 2280 


  iteration 2280; minNextMutationTime = 1971.05; timeNextPopSample = 1972; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 5



*** Looping through 5.2. Iter = 2281 


  iteration 2281; minNextMutationTime = 1971.11; timeNextPopSample = 1972; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 76



*** Looping through 5.2. Iter = 2282 


  iteration 2282; minNextMutationTime = 1971.22; timeNextPopSample = 1972; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 77



*** Looping through 5.2. Iter = 2283 


  iteration 2283; minNextMutationTime = 1971.25; timeNextPopSample = 1972; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 18



*** Looping through 5.2. Iter = 2284 


  iteration 2284; minNextMutationTime = 1971.49; timeNextPopSample = 1972; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 78



*** Looping through 5.2. Iter = 2285 


  iteration 2285; minNextMutationTime = 1971.72; timeNextPopSample = 1972; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 107



*** Looping through 5.2. Iter = 2286 


  iteration 2286; minNextMutationTime = 1971.86; timeNextPopSample = 1972; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 233



*** Looping through 5.2. Iter = 2287 


  iteration 2287; minNextMutationTime = 1982; timeNextPopSample = 1972; popParams.size() = 9

 We are SAMPLING at time 1972



*** Looping through 5.2. Iter = 2288 


  iteration 2288; minNextMutationTime = 1972.02; timeNextPopSample = 1973; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 2673



*** Looping through 5.2. Iter = 2289 


  iteration 2289; minNextMutationTime = 1972.11; timeNextPopSample = 1973; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 25



*** Looping through 5.2. Iter = 2290 


  iteration 2290; minNextMutationTime = 1972.12; timeNextPopSample = 1973; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 26



*** Looping through 5.2. Iter = 2291 


  iteration 2291; minNextMutationTime = 1972.17; timeNextPopSample = 1973; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 6



*** Looping through 5.2. Iter = 2292 


  iteration 2292; minNextMutationTime = 1972.2; timeNextPopSample = 1973; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 114



*** Looping through 5.2. Iter = 2293 


  iteration 2293; minNextMutationTime = 1972.25; timeNextPopSample = 1973; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 8



*** Looping through 5.2. Iter = 2294 


  iteration 2294; minNextMutationTime = 1972.42; timeNextPopSample = 1973; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 9



*** Looping through 5.2. Iter = 2295 


  iteration 2295; minNextMutationTime = 1972.58; timeNextPopSample = 1973; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 71



*** Looping through 5.2. Iter = 2296 


  iteration 2296; minNextMutationTime = 1972.66; timeNextPopSample = 1973; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 251



*** Looping through 5.2. Iter = 2297 


  iteration 2297; minNextMutationTime = 1972.7; timeNextPopSample = 1973; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 116



*** Looping through 5.2. Iter = 2298 


  iteration 2298; minNextMutationTime = 1972.73; timeNextPopSample = 1973; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 118



*** Looping through 5.2. Iter = 2299 


  iteration 2299; minNextMutationTime = 1972.77; timeNextPopSample = 1973; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 114



*** Looping through 5.2. Iter = 2300 


  iteration 2300; minNextMutationTime = 1972.83; timeNextPopSample = 1973; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 70



*** Looping through 5.2. Iter = 2301 


  iteration 2301; minNextMutationTime = 1972.92; timeNextPopSample = 1973; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 121



*** Looping through 5.2. Iter = 2302 


  iteration 2302; minNextMutationTime = 1983; timeNextPopSample = 1973; popParams.size() = 9

 We are SAMPLING at time 1973



*** Looping through 5.2. Iter = 2303 


  iteration 2303; minNextMutationTime = 1973; timeNextPopSample = 1974; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 2718



*** Looping through 5.2. Iter = 2304 


  iteration 2304; minNextMutationTime = 1973.12; timeNextPopSample = 1974; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 128



*** Looping through 5.2. Iter = 2305 


  iteration 2305; minNextMutationTime = 1973.15; timeNextPopSample = 1974; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 71



*** Looping through 5.2. Iter = 2306 


  iteration 2306; minNextMutationTime = 1973.18; timeNextPopSample = 1974; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 254



*** Looping through 5.2. Iter = 2307 


  iteration 2307; minNextMutationTime = 1973.3; timeNextPopSample = 1974; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 248



*** Looping through 5.2. Iter = 2308 


  iteration 2308; minNextMutationTime = 1973.43; timeNextPopSample = 1974; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 2801



*** Looping through 5.2. Iter = 2309 


  iteration 2309; minNextMutationTime = 1973.47; timeNextPopSample = 1974; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 8



*** Looping through 5.2. Iter = 2310 


  iteration 2310; minNextMutationTime = 1973.6; timeNextPopSample = 1974; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 31



*** Looping through 5.2. Iter = 2311 


  iteration 2311; minNextMutationTime = 1973.67; timeNextPopSample = 1974; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 2825



*** Looping through 5.2. Iter = 2312 


  iteration 2312; minNextMutationTime = 1973.8; timeNextPopSample = 1974; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 33



*** Looping through 5.2. Iter = 2313 


  iteration 2313; minNextMutationTime = 1973.86; timeNextPopSample = 1974; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 136



*** Looping through 5.2. Iter = 2314 


  iteration 2314; minNextMutationTime = 1984; timeNextPopSample = 1974; popParams.size() = 9

 We are SAMPLING at time 1974



*** Looping through 5.2. Iter = 2315 


  iteration 2315; minNextMutationTime = 1974.01; timeNextPopSample = 1975; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 11



*** Looping through 5.2. Iter = 2316 


  iteration 2316; minNextMutationTime = 1974.04; timeNextPopSample = 1975; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 141



*** Looping through 5.2. Iter = 2317 


  iteration 2317; minNextMutationTime = 1974.05; timeNextPopSample = 1975; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 12



*** Looping through 5.2. Iter = 2318 


  iteration 2318; minNextMutationTime = 1974.09; timeNextPopSample = 1975; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 75



*** Looping through 5.2. Iter = 2319 


  iteration 2319; minNextMutationTime = 1974.24; timeNextPopSample = 1975; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 35



*** Looping through 5.2. Iter = 2320 


  iteration 2320; minNextMutationTime = 1974.37; timeNextPopSample = 1975; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 47



*** Looping through 5.2. Iter = 2321 


  iteration 2321; minNextMutationTime = 1974.44; timeNextPopSample = 1975; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 260



*** Looping through 5.2. Iter = 2322 


  iteration 2322; minNextMutationTime = 1974.49; timeNextPopSample = 1975; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 2985



*** Looping through 5.2. Iter = 2323 


  iteration 2323; minNextMutationTime = 1974.66; timeNextPopSample = 1975; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 53



*** Looping through 5.2. Iter = 2324 


  iteration 2324; minNextMutationTime = 1974.69; timeNextPopSample = 1975; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 262



*** Looping through 5.2. Iter = 2325 


  iteration 2325; minNextMutationTime = 1974.7; timeNextPopSample = 1975; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 77



*** Looping through 5.2. Iter = 2326 


  iteration 2326; minNextMutationTime = 1974.72; timeNextPopSample = 1975; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 13



*** Looping through 5.2. Iter = 2327 


  iteration 2327; minNextMutationTime = 1974.79; timeNextPopSample = 1975; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 142



*** Looping through 5.2. Iter = 2328 


  iteration 2328; minNextMutationTime = 1974.87; timeNextPopSample = 1975; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 57



*** Looping through 5.2. Iter = 2329 


  iteration 2329; minNextMutationTime = 1985; timeNextPopSample = 1975; popParams.size() = 9

 We are SAMPLING at time 1975



*** Looping through 5.2. Iter = 2330 


  iteration 2330; minNextMutationTime = 1975.12; timeNextPopSample = 1976; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 142



*** Looping through 5.2. Iter = 2331 


  iteration 2331; minNextMutationTime = 1975.32; timeNextPopSample = 1976; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 51



*** Looping through 5.2. Iter = 2332 


  iteration 2332; minNextMutationTime = 1975.37; timeNextPopSample = 1976; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 15



*** Looping through 5.2. Iter = 2333 


  iteration 2333; minNextMutationTime = 1975.43; timeNextPopSample = 1976; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 17



*** Looping through 5.2. Iter = 2334 


  iteration 2334; minNextMutationTime = 1975.48; timeNextPopSample = 1976; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3109



*** Looping through 5.2. Iter = 2335 


  iteration 2335; minNextMutationTime = 1975.58; timeNextPopSample = 1976; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 288



*** Looping through 5.2. Iter = 2336 


  iteration 2336; minNextMutationTime = 1975.64; timeNextPopSample = 1976; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 84



*** Looping through 5.2. Iter = 2337 


  iteration 2337; minNextMutationTime = 1975.74; timeNextPopSample = 1976; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 151



*** Looping through 5.2. Iter = 2338 


  iteration 2338; minNextMutationTime = 1975.77; timeNextPopSample = 1976; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 148



*** Looping through 5.2. Iter = 2339 


  iteration 2339; minNextMutationTime = 1975.77; timeNextPopSample = 1976; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3108



*** Looping through 5.2. Iter = 2340 


  iteration 2340; minNextMutationTime = 1975.78; timeNextPopSample = 1976; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 290



*** Looping through 5.2. Iter = 2341 


  iteration 2341; minNextMutationTime = 1975.82; timeNextPopSample = 1976; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 149



*** Looping through 5.2. Iter = 2342 


  iteration 2342; minNextMutationTime = 1975.9; timeNextPopSample = 1976; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 153



*** Looping through 5.2. Iter = 2343 


  iteration 2343; minNextMutationTime = 1975.94; timeNextPopSample = 1976; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3124



*** Looping through 5.2. Iter = 2344 


  iteration 2344; minNextMutationTime = 1975.94; timeNextPopSample = 1976; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 18



*** Looping through 5.2. Iter = 2345 


  iteration 2345; minNextMutationTime = 1975.96; timeNextPopSample = 1976; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 291



*** Looping through 5.2. Iter = 2346 


  iteration 2346; minNextMutationTime = 1986; timeNextPopSample = 1976; popParams.size() = 9

 We are SAMPLING at time 1976



*** Looping through 5.2. Iter = 2347 


  iteration 2347; minNextMutationTime = 1976.01; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3166



*** Looping through 5.2. Iter = 2348 


  iteration 2348; minNextMutationTime = 1976.06; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 159



*** Looping through 5.2. Iter = 2349 


  iteration 2349; minNextMutationTime = 1976.11; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 22



*** Looping through 5.2. Iter = 2350 


  iteration 2350; minNextMutationTime = 1976.19; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 300



*** Looping through 5.2. Iter = 2351 


  iteration 2351; minNextMutationTime = 1976.25; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 24



*** Looping through 5.2. Iter = 2352 


  iteration 2352; minNextMutationTime = 1976.31; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3190



*** Looping through 5.2. Iter = 2353 


  iteration 2353; minNextMutationTime = 1976.35; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 165



*** Looping through 5.2. Iter = 2354 


  iteration 2354; minNextMutationTime = 1976.37; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 52



*** Looping through 5.2. Iter = 2355 


  iteration 2355; minNextMutationTime = 1976.42; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 88



*** Looping through 5.2. Iter = 2356 


  iteration 2356; minNextMutationTime = 1976.47; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 25



*** Looping through 5.2. Iter = 2357 


  iteration 2357; minNextMutationTime = 1976.65; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3354



*** Looping through 5.2. Iter = 2358 


  iteration 2358; minNextMutationTime = 1976.68; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3383



*** Looping through 5.2. Iter = 2359 


  iteration 2359; minNextMutationTime = 1976.71; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 88



*** Looping through 5.2. Iter = 2360 


  iteration 2360; minNextMutationTime = 1976.72; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 54



*** Looping through 5.2. Iter = 2361 


  iteration 2361; minNextMutationTime = 1976.74; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 91



*** Looping through 5.2. Iter = 2362 


  iteration 2362; minNextMutationTime = 1976.75; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 164



*** Looping through 5.2. Iter = 2363 


  iteration 2363; minNextMutationTime = 1976.77; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3404



*** Looping through 5.2. Iter = 2364 


  iteration 2364; minNextMutationTime = 1976.86; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 25



*** Looping through 5.2. Iter = 2365 


  iteration 2365; minNextMutationTime = 1976.88; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 165



*** Looping through 5.2. Iter = 2366 


  iteration 2366; minNextMutationTime = 1976.96; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 53



*** Looping through 5.2. Iter = 2367 


  iteration 2367; minNextMutationTime = 1976.97; timeNextPopSample = 1977; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 95



*** Looping through 5.2. Iter = 2368 


  iteration 2368; minNextMutationTime = 1987; timeNextPopSample = 1977; popParams.size() = 9

 We are SAMPLING at time 1977



*** Looping through 5.2. Iter = 2369 


  iteration 2369; minNextMutationTime = 1977.04; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 169



*** Looping through 5.2. Iter = 2370 


  iteration 2370; minNextMutationTime = 1977.05; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 30



*** Looping through 5.2. Iter = 2371 


  iteration 2371; minNextMutationTime = 1977.15; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 31



*** Looping through 5.2. Iter = 2372 


  iteration 2372; minNextMutationTime = 1977.26; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 33



*** Looping through 5.2. Iter = 2373 


  iteration 2373; minNextMutationTime = 1977.27; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 170



*** Looping through 5.2. Iter = 2374 


  iteration 2374; minNextMutationTime = 1977.29; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3455



*** Looping through 5.2. Iter = 2375 


  iteration 2375; minNextMutationTime = 1977.39; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3459



*** Looping through 5.2. Iter = 2376 


  iteration 2376; minNextMutationTime = 1977.51; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 162



*** Looping through 5.2. Iter = 2377 


  iteration 2377; minNextMutationTime = 1977.52; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3462



*** Looping through 5.2. Iter = 2378 


  iteration 2378; minNextMutationTime = 1977.52; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 55



*** Looping through 5.2. Iter = 2379 


  iteration 2379; minNextMutationTime = 1977.54; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 35



*** Looping through 5.2. Iter = 2380 


  iteration 2380; minNextMutationTime = 1977.55; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 95



*** Looping through 5.2. Iter = 2381 


  iteration 2381; minNextMutationTime = 1977.57; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 163



*** Looping through 5.2. Iter = 2382 


  iteration 2382; minNextMutationTime = 1977.61; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 97



*** Looping through 5.2. Iter = 2383 


  iteration 2383; minNextMutationTime = 1977.66; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 36



*** Looping through 5.2. Iter = 2384 


  iteration 2384; minNextMutationTime = 1977.73; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 56



*** Looping through 5.2. Iter = 2385 


  iteration 2385; minNextMutationTime = 1977.74; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 37



*** Looping through 5.2. Iter = 2386 


  iteration 2386; minNextMutationTime = 1977.74; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 98



*** Looping through 5.2. Iter = 2387 


  iteration 2387; minNextMutationTime = 1977.83; timeNextPopSample = 1978; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 40



*** Looping through 5.2. Iter = 2388 


  iteration 2388; minNextMutationTime = 1988; timeNextPopSample = 1978; popParams.size() = 9

 We are SAMPLING at time 1978



*** Looping through 5.2. Iter = 2389 


  iteration 2389; minNextMutationTime = 1978.06; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 296



*** Looping through 5.2. Iter = 2390 


  iteration 2390; minNextMutationTime = 1978.09; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 301



*** Looping through 5.2. Iter = 2391 


  iteration 2391; minNextMutationTime = 1978.25; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 322



*** Looping through 5.2. Iter = 2392 


  iteration 2392; minNextMutationTime = 1978.36; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3583



*** Looping through 5.2. Iter = 2393 


  iteration 2393; minNextMutationTime = 1978.44; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 179



*** Looping through 5.2. Iter = 2394 


  iteration 2394; minNextMutationTime = 1978.47; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 105



*** Looping through 5.2. Iter = 2395 


  iteration 2395; minNextMutationTime = 1978.5; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 180



*** Looping through 5.2. Iter = 2396 


  iteration 2396; minNextMutationTime = 1978.53; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 185



*** Looping through 5.2. Iter = 2397 


  iteration 2397; minNextMutationTime = 1978.58; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 110



*** Looping through 5.2. Iter = 2398 


  iteration 2398; minNextMutationTime = 1978.62; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 109



*** Looping through 5.2. Iter = 2399 


  iteration 2399; minNextMutationTime = 1978.69; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3600



*** Looping through 5.2. Iter = 2400 


  iteration 2400; minNextMutationTime = 1978.69; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 319



*** Looping through 5.2. Iter = 2401 


  iteration 2401; minNextMutationTime = 1978.73; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 57



*** Looping through 5.2. Iter = 2402 


  iteration 2402; minNextMutationTime = 1978.75; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3605



*** Looping through 5.2. Iter = 2403 


  iteration 2403; minNextMutationTime = 1978.82; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 110



*** Looping through 5.2. Iter = 2404 


  iteration 2404; minNextMutationTime = 1978.86; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3638



*** Looping through 5.2. Iter = 2405 


  iteration 2405; minNextMutationTime = 1978.88; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 60



*** Looping through 5.2. Iter = 2406 


  iteration 2406; minNextMutationTime = 1978.89; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 62



*** Looping through 5.2. Iter = 2407 


  iteration 2407; minNextMutationTime = 1978.9; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 320



*** Looping through 5.2. Iter = 2408 


  iteration 2408; minNextMutationTime = 1978.91; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 111



*** Looping through 5.2. Iter = 2409 


  iteration 2409; minNextMutationTime = 1978.92; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 61



*** Looping through 5.2. Iter = 2410 


  iteration 2410; minNextMutationTime = 1978.93; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 188



*** Looping through 5.2. Iter = 2411 


  iteration 2411; minNextMutationTime = 1978.94; timeNextPopSample = 1979; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 61



*** Looping through 5.2. Iter = 2412 


  iteration 2412; minNextMutationTime = 1989; timeNextPopSample = 1979; popParams.size() = 9

 We are SAMPLING at time 1979



*** Looping through 5.2. Iter = 2413 


  iteration 2413; minNextMutationTime = 1979.08; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 332



*** Looping through 5.2. Iter = 2414 


  iteration 2414; minNextMutationTime = 1979.13; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 114



*** Looping through 5.2. Iter = 2415 


  iteration 2415; minNextMutationTime = 1979.13; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 43



*** Looping through 5.2. Iter = 2416 


  iteration 2416; minNextMutationTime = 1979.15; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 114



*** Looping through 5.2. Iter = 2417 


  iteration 2417; minNextMutationTime = 1979.23; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 68



*** Looping through 5.2. Iter = 2418 


  iteration 2418; minNextMutationTime = 1979.25; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 198



*** Looping through 5.2. Iter = 2419 


  iteration 2419; minNextMutationTime = 1979.29; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 205



*** Looping through 5.2. Iter = 2420 


  iteration 2420; minNextMutationTime = 1979.33; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 338



*** Looping through 5.2. Iter = 2421 


  iteration 2421; minNextMutationTime = 1979.43; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 74



*** Looping through 5.2. Iter = 2422 


  iteration 2422; minNextMutationTime = 1979.43; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3695



*** Looping through 5.2. Iter = 2423 


  iteration 2423; minNextMutationTime = 1979.52; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 42



*** Looping through 5.2. Iter = 2424 


  iteration 2424; minNextMutationTime = 1979.55; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 342



*** Looping through 5.2. Iter = 2425 


  iteration 2425; minNextMutationTime = 1979.6; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 117



*** Looping through 5.2. Iter = 2426 


  iteration 2426; minNextMutationTime = 1979.63; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 211



*** Looping through 5.2. Iter = 2427 


  iteration 2427; minNextMutationTime = 1979.68; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 78



*** Looping through 5.2. Iter = 2428 


  iteration 2428; minNextMutationTime = 1979.78; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 215



*** Looping through 5.2. Iter = 2429 


  iteration 2429; minNextMutationTime = 1979.78; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 342



*** Looping through 5.2. Iter = 2430 


  iteration 2430; minNextMutationTime = 1979.83; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3751



*** Looping through 5.2. Iter = 2431 


  iteration 2431; minNextMutationTime = 1979.85; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 342



*** Looping through 5.2. Iter = 2432 


  iteration 2432; minNextMutationTime = 1979.87; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 44



*** Looping through 5.2. Iter = 2433 


  iteration 2433; minNextMutationTime = 1979.87; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 45



*** Looping through 5.2. Iter = 2434 


  iteration 2434; minNextMutationTime = 1979.89; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 48



*** Looping through 5.2. Iter = 2435 


  iteration 2435; minNextMutationTime = 1979.92; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 351



*** Looping through 5.2. Iter = 2436 


  iteration 2436; minNextMutationTime = 1979.95; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 51



*** Looping through 5.2. Iter = 2437 


  iteration 2437; minNextMutationTime = 1979.98; timeNextPopSample = 1980; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 353



*** Looping through 5.2. Iter = 2438 


  iteration 2438; minNextMutationTime = 1990; timeNextPopSample = 1980; popParams.size() = 9

 We are SAMPLING at time 1980



*** Looping through 5.2. Iter = 2439 


  iteration 2439; minNextMutationTime = 1980.01; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3787



*** Looping through 5.2. Iter = 2440 


  iteration 2440; minNextMutationTime = 1980.04; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 354



*** Looping through 5.2. Iter = 2441 


  iteration 2441; minNextMutationTime = 1980.11; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 222



*** Looping through 5.2. Iter = 2442 


  iteration 2442; minNextMutationTime = 1980.17; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3856



*** Looping through 5.2. Iter = 2443 


  iteration 2443; minNextMutationTime = 1980.19; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 356



*** Looping through 5.2. Iter = 2444 


  iteration 2444; minNextMutationTime = 1980.27; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3925



*** Looping through 5.2. Iter = 2445 


  iteration 2445; minNextMutationTime = 1980.29; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 223



*** Looping through 5.2. Iter = 2446 


  iteration 2446; minNextMutationTime = 1980.34; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 3967



*** Looping through 5.2. Iter = 2447 


  iteration 2447; minNextMutationTime = 1980.43; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 117



*** Looping through 5.2. Iter = 2448 


  iteration 2448; minNextMutationTime = 1980.44; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 79



*** Looping through 5.2. Iter = 2449 


  iteration 2449; minNextMutationTime = 1980.5; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 370



*** Looping through 5.2. Iter = 2450 


  iteration 2450; minNextMutationTime = 1980.56; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4018



*** Looping through 5.2. Iter = 2451 


  iteration 2451; minNextMutationTime = 1980.57; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 225



*** Looping through 5.2. Iter = 2452 


  iteration 2452; minNextMutationTime = 1980.59; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 78



*** Looping through 5.2. Iter = 2453 


  iteration 2453; minNextMutationTime = 1980.61; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 117



*** Looping through 5.2. Iter = 2454 


  iteration 2454; minNextMutationTime = 1980.65; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 121



*** Looping through 5.2. Iter = 2455 


  iteration 2455; minNextMutationTime = 1980.7; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 219



*** Looping through 5.2. Iter = 2456 


  iteration 2456; minNextMutationTime = 1980.72; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4051



*** Looping through 5.2. Iter = 2457 


  iteration 2457; minNextMutationTime = 1980.73; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 122



*** Looping through 5.2. Iter = 2458 


  iteration 2458; minNextMutationTime = 1980.78; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 51



*** Looping through 5.2. Iter = 2459 


  iteration 2459; minNextMutationTime = 1980.81; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4094



*** Looping through 5.2. Iter = 2460 


  iteration 2460; minNextMutationTime = 1980.89; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 206



*** Looping through 5.2. Iter = 2461 


  iteration 2461; minNextMutationTime = 1980.92; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 375



*** Looping through 5.2. Iter = 2462 


  iteration 2462; minNextMutationTime = 1981; timeNextPopSample = 1981; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 204



*** Looping through 5.2. Iter = 2463 


  iteration 2463; minNextMutationTime = 1991; timeNextPopSample = 1981; popParams.size() = 9

 We are SAMPLING at time 1981



*** Looping through 5.2. Iter = 2464 


  iteration 2464; minNextMutationTime = 1981.01; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 377



*** Looping through 5.2. Iter = 2465 


  iteration 2465; minNextMutationTime = 1981.03; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 378



*** Looping through 5.2. Iter = 2466 


  iteration 2466; minNextMutationTime = 1981.08; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 207



*** Looping through 5.2. Iter = 2467 


  iteration 2467; minNextMutationTime = 1981.11; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 53



*** Looping through 5.2. Iter = 2468 


  iteration 2468; minNextMutationTime = 1981.13; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 52



*** Looping through 5.2. Iter = 2469 


  iteration 2469; minNextMutationTime = 1981.34; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 348



*** Looping through 5.2. Iter = 2470 


  iteration 2470; minNextMutationTime = 1981.35; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 122



*** Looping through 5.2. Iter = 2471 


  iteration 2471; minNextMutationTime = 1981.35; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 123



*** Looping through 5.2. Iter = 2472 


  iteration 2472; minNextMutationTime = 1981.36; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 80



*** Looping through 5.2. Iter = 2473 


  iteration 2473; minNextMutationTime = 1981.39; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4146



*** Looping through 5.2. Iter = 2474 


  iteration 2474; minNextMutationTime = 1981.41; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 52



*** Looping through 5.2. Iter = 2475 


  iteration 2475; minNextMutationTime = 1981.41; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 353



*** Looping through 5.2. Iter = 2476 


  iteration 2476; minNextMutationTime = 1981.45; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 122



*** Looping through 5.2. Iter = 2477 


  iteration 2477; minNextMutationTime = 1981.45; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 124



*** Looping through 5.2. Iter = 2478 


  iteration 2478; minNextMutationTime = 1981.47; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 84



*** Looping through 5.2. Iter = 2479 


  iteration 2479; minNextMutationTime = 1981.52; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4180



*** Looping through 5.2. Iter = 2480 


  iteration 2480; minNextMutationTime = 1981.54; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4182



*** Looping through 5.2. Iter = 2481 


  iteration 2481; minNextMutationTime = 1981.61; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 361



*** Looping through 5.2. Iter = 2482 


  iteration 2482; minNextMutationTime = 1981.63; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4203



*** Looping through 5.2. Iter = 2483 


  iteration 2483; minNextMutationTime = 1981.68; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 51



*** Looping through 5.2. Iter = 2484 


  iteration 2484; minNextMutationTime = 1981.69; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 52



*** Looping through 5.2. Iter = 2485 


  iteration 2485; minNextMutationTime = 1981.7; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 212



*** Looping through 5.2. Iter = 2486 


  iteration 2486; minNextMutationTime = 1981.72; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 87



*** Looping through 5.2. Iter = 2487 


  iteration 2487; minNextMutationTime = 1981.75; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4226



*** Looping through 5.2. Iter = 2488 


  iteration 2488; minNextMutationTime = 1981.8; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 89



*** Looping through 5.2. Iter = 2489 


  iteration 2489; minNextMutationTime = 1981.87; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4281



*** Looping through 5.2. Iter = 2490 


  iteration 2490; minNextMutationTime = 1981.91; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 124



*** Looping through 5.2. Iter = 2491 


  iteration 2491; minNextMutationTime = 1981.93; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 125



*** Looping through 5.2. Iter = 2492 


  iteration 2492; minNextMutationTime = 1981.96; timeNextPopSample = 1982; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 219



*** Looping through 5.2. Iter = 2493 


  iteration 2493; minNextMutationTime = 1992; timeNextPopSample = 1982; popParams.size() = 9

 We are SAMPLING at time 1982



*** Looping through 5.2. Iter = 2494 


  iteration 2494; minNextMutationTime = 1982; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 128



*** Looping through 5.2. Iter = 2495 


  iteration 2495; minNextMutationTime = 1982.02; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 127



*** Looping through 5.2. Iter = 2496 


  iteration 2496; minNextMutationTime = 1982.11; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 48



*** Looping through 5.2. Iter = 2497 


  iteration 2497; minNextMutationTime = 1982.11; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 361



*** Looping through 5.2. Iter = 2498 


  iteration 2498; minNextMutationTime = 1982.13; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 91



*** Looping through 5.2. Iter = 2499 


  iteration 2499; minNextMutationTime = 1982.18; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 367



*** Looping through 5.2. Iter = 2500 


  iteration 2500; minNextMutationTime = 1982.18; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 225



*** Looping through 5.2. Iter = 2501 


  iteration 2501; minNextMutationTime = 1982.22; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 92



*** Looping through 5.2. Iter = 2502 


  iteration 2502; minNextMutationTime = 1982.23; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 129



*** Looping through 5.2. Iter = 2503 


  iteration 2503; minNextMutationTime = 1982.24; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4326



*** Looping through 5.2. Iter = 2504 


  iteration 2504; minNextMutationTime = 1982.28; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 222



*** Looping through 5.2. Iter = 2505 


  iteration 2505; minNextMutationTime = 1982.29; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4337



*** Looping through 5.2. Iter = 2506 


  iteration 2506; minNextMutationTime = 1982.31; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 129



*** Looping through 5.2. Iter = 2507 


  iteration 2507; minNextMutationTime = 1982.32; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 129



*** Looping through 5.2. Iter = 2508 


  iteration 2508; minNextMutationTime = 1982.32; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 224



*** Looping through 5.2. Iter = 2509 


  iteration 2509; minNextMutationTime = 1982.36; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 88



*** Looping through 5.2. Iter = 2510 


  iteration 2510; minNextMutationTime = 1982.36; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 89



*** Looping through 5.2. Iter = 2511 


  iteration 2511; minNextMutationTime = 1982.4; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 232



*** Looping through 5.2. Iter = 2512 


  iteration 2512; minNextMutationTime = 1982.47; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 48



*** Looping through 5.2. Iter = 2513 


  iteration 2513; minNextMutationTime = 1982.47; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 369



*** Looping through 5.2. Iter = 2514 


  iteration 2514; minNextMutationTime = 1982.48; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 232



*** Looping through 5.2. Iter = 2515 


  iteration 2515; minNextMutationTime = 1982.5; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 91



*** Looping through 5.2. Iter = 2516 


  iteration 2516; minNextMutationTime = 1982.54; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 49



*** Looping through 5.2. Iter = 2517 


  iteration 2517; minNextMutationTime = 1982.57; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 52



*** Looping through 5.2. Iter = 2518 


  iteration 2518; minNextMutationTime = 1982.58; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 233



*** Looping through 5.2. Iter = 2519 


  iteration 2519; minNextMutationTime = 1982.59; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 237



*** Looping through 5.2. Iter = 2520 


  iteration 2520; minNextMutationTime = 1982.61; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 237



*** Looping through 5.2. Iter = 2521 


  iteration 2521; minNextMutationTime = 1982.64; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 235



*** Looping through 5.2. Iter = 2522 


  iteration 2522; minNextMutationTime = 1982.64; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 129



*** Looping through 5.2. Iter = 2523 


  iteration 2523; minNextMutationTime = 1982.65; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 128



*** Looping through 5.2. Iter = 2524 


  iteration 2524; minNextMutationTime = 1982.71; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4374



*** Looping through 5.2. Iter = 2525 


  iteration 2525; minNextMutationTime = 1982.73; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 53



*** Looping through 5.2. Iter = 2526 


  iteration 2526; minNextMutationTime = 1982.76; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 130



*** Looping through 5.2. Iter = 2527 


  iteration 2527; minNextMutationTime = 1982.77; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 55



*** Looping through 5.2. Iter = 2528 


  iteration 2528; minNextMutationTime = 1982.8; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 234



*** Looping through 5.2. Iter = 2529 


  iteration 2529; minNextMutationTime = 1982.81; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 91



*** Looping through 5.2. Iter = 2530 


  iteration 2530; minNextMutationTime = 1982.82; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4388



*** Looping through 5.2. Iter = 2531 


  iteration 2531; minNextMutationTime = 1982.93; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 84



*** Looping through 5.2. Iter = 2532 


  iteration 2532; minNextMutationTime = 1982.97; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 132



*** Looping through 5.2. Iter = 2533 


  iteration 2533; minNextMutationTime = 1982.99; timeNextPopSample = 1983; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 83



*** Looping through 5.2. Iter = 2534 


  iteration 2534; minNextMutationTime = 1993; timeNextPopSample = 1983; popParams.size() = 9

 We are SAMPLING at time 1983



*** Looping through 5.2. Iter = 2535 


  iteration 2535; minNextMutationTime = 1983.04; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 384



*** Looping through 5.2. Iter = 2536 


  iteration 2536; minNextMutationTime = 1983.08; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 242



*** Looping through 5.2. Iter = 2537 


  iteration 2537; minNextMutationTime = 1983.14; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4443



*** Looping through 5.2. Iter = 2538 


  iteration 2538; minNextMutationTime = 1983.17; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 242



*** Looping through 5.2. Iter = 2539 


  iteration 2539; minNextMutationTime = 1983.17; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4447



*** Looping through 5.2. Iter = 2540 


  iteration 2540; minNextMutationTime = 1983.29; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 80



*** Looping through 5.2. Iter = 2541 


  iteration 2541; minNextMutationTime = 1983.33; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 139



*** Looping through 5.2. Iter = 2542 


  iteration 2542; minNextMutationTime = 1983.39; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4522



*** Looping through 5.2. Iter = 2543 


  iteration 2543; minNextMutationTime = 1983.4; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4535



*** Looping through 5.2. Iter = 2544 


  iteration 2544; minNextMutationTime = 1983.43; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 83



*** Looping through 5.2. Iter = 2545 


  iteration 2545; minNextMutationTime = 1983.44; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 141



*** Looping through 5.2. Iter = 2546 


  iteration 2546; minNextMutationTime = 1983.5; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 58



*** Looping through 5.2. Iter = 2547 


  iteration 2547; minNextMutationTime = 1983.52; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4562



*** Looping through 5.2. Iter = 2548 


  iteration 2548; minNextMutationTime = 1983.53; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4564



*** Looping through 5.2. Iter = 2549 


  iteration 2549; minNextMutationTime = 1983.57; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 251



*** Looping through 5.2. Iter = 2550 


  iteration 2550; minNextMutationTime = 1983.73; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 64



*** Looping through 5.2. Iter = 2551 


  iteration 2551; minNextMutationTime = 1983.73; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 385



*** Looping through 5.2. Iter = 2552 


  iteration 2552; minNextMutationTime = 1983.78; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 257



*** Looping through 5.2. Iter = 2553 


  iteration 2553; minNextMutationTime = 1983.86; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4649



*** Looping through 5.2. Iter = 2554 


  iteration 2554; minNextMutationTime = 1983.88; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 63



*** Looping through 5.2. Iter = 2555 


  iteration 2555; minNextMutationTime = 1983.89; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 63



*** Looping through 5.2. Iter = 2556 


  iteration 2556; minNextMutationTime = 1983.91; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 86



*** Looping through 5.2. Iter = 2557 


  iteration 2557; minNextMutationTime = 1983.91; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 142



*** Looping through 5.2. Iter = 2558 


  iteration 2558; minNextMutationTime = 1983.92; timeNextPopSample = 1984; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 88



*** Looping through 5.2. Iter = 2559 


  iteration 2559; minNextMutationTime = 1994; timeNextPopSample = 1984; popParams.size() = 9

 We are SAMPLING at time 1984



*** Looping through 5.2. Iter = 2560 


  iteration 2560; minNextMutationTime = 1984.01; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4782



*** Looping through 5.2. Iter = 2561 


  iteration 2561; minNextMutationTime = 1984.02; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 266



*** Looping through 5.2. Iter = 2562 


  iteration 2562; minNextMutationTime = 1984.04; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 399



*** Looping through 5.2. Iter = 2563 


  iteration 2563; minNextMutationTime = 1984.07; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 94



*** Looping through 5.2. Iter = 2564 


  iteration 2564; minNextMutationTime = 1984.1; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 271



*** Looping through 5.2. Iter = 2565 


  iteration 2565; minNextMutationTime = 1984.11; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 267



*** Looping through 5.2. Iter = 2566 


  iteration 2566; minNextMutationTime = 1984.13; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 265



*** Looping through 5.2. Iter = 2567 


  iteration 2567; minNextMutationTime = 1984.13; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 65



*** Looping through 5.2. Iter = 2568 


  iteration 2568; minNextMutationTime = 1984.16; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 97



*** Looping through 5.2. Iter = 2569 


  iteration 2569; minNextMutationTime = 1984.17; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4772



*** Looping through 5.2. Iter = 2570 


  iteration 2570; minNextMutationTime = 1984.17; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 98



*** Looping through 5.2. Iter = 2571 


  iteration 2571; minNextMutationTime = 1984.19; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 65



*** Looping through 5.2. Iter = 2572 


  iteration 2572; minNextMutationTime = 1984.2; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 145



*** Looping through 5.2. Iter = 2573 


  iteration 2573; minNextMutationTime = 1984.21; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 401



*** Looping through 5.2. Iter = 2574 


  iteration 2574; minNextMutationTime = 1984.23; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 98



*** Looping through 5.2. Iter = 2575 


  iteration 2575; minNextMutationTime = 1984.25; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 144



*** Looping through 5.2. Iter = 2576 


  iteration 2576; minNextMutationTime = 1984.27; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 67



*** Looping through 5.2. Iter = 2577 


  iteration 2577; minNextMutationTime = 1984.27; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 68



*** Looping through 5.2. Iter = 2578 


  iteration 2578; minNextMutationTime = 1984.27; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 145



*** Looping through 5.2. Iter = 2579 


  iteration 2579; minNextMutationTime = 1984.29; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 100



*** Looping through 5.2. Iter = 2580 


  iteration 2580; minNextMutationTime = 1984.38; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4825



*** Looping through 5.2. Iter = 2581 


  iteration 2581; minNextMutationTime = 1984.39; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 146



*** Looping through 5.2. Iter = 2582 


  iteration 2582; minNextMutationTime = 1984.42; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 146



*** Looping through 5.2. Iter = 2583 


  iteration 2583; minNextMutationTime = 1984.48; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 406



*** Looping through 5.2. Iter = 2584 


  iteration 2584; minNextMutationTime = 1984.51; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 404



*** Looping through 5.2. Iter = 2585 


  iteration 2585; minNextMutationTime = 1984.58; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 102



*** Looping through 5.2. Iter = 2586 


  iteration 2586; minNextMutationTime = 1984.6; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 68



*** Looping through 5.2. Iter = 2587 


  iteration 2587; minNextMutationTime = 1984.62; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 68



*** Looping through 5.2. Iter = 2588 


  iteration 2588; minNextMutationTime = 1984.62; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 266



*** Looping through 5.2. Iter = 2589 


  iteration 2589; minNextMutationTime = 1984.64; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 69



*** Looping through 5.2. Iter = 2590 


  iteration 2590; minNextMutationTime = 1984.64; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 70



*** Looping through 5.2. Iter = 2591 


  iteration 2591; minNextMutationTime = 1984.65; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 103



*** Looping through 5.2. Iter = 2592 


  iteration 2592; minNextMutationTime = 1984.66; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 73



*** Looping through 5.2. Iter = 2593 


  iteration 2593; minNextMutationTime = 1984.67; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 75



*** Looping through 5.2. Iter = 2594 


  iteration 2594; minNextMutationTime = 1984.69; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 74



*** Looping through 5.2. Iter = 2595 


  iteration 2595; minNextMutationTime = 1984.7; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 397



*** Looping through 5.2. Iter = 2596 


  iteration 2596; minNextMutationTime = 1984.71; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 268



*** Looping through 5.2. Iter = 2597 


  iteration 2597; minNextMutationTime = 1984.72; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 103



*** Looping through 5.2. Iter = 2598 


  iteration 2598; minNextMutationTime = 1984.76; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 72



*** Looping through 5.2. Iter = 2599 


  iteration 2599; minNextMutationTime = 1984.78; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 106



*** Looping through 5.2. Iter = 2600 


  iteration 2600; minNextMutationTime = 1984.78; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 397



*** Looping through 5.2. Iter = 2601 


  iteration 2601; minNextMutationTime = 1984.81; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 397



*** Looping through 5.2. Iter = 2602 


  iteration 2602; minNextMutationTime = 1984.81; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 108



*** Looping through 5.2. Iter = 2603 


  iteration 2603; minNextMutationTime = 1984.81; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 146



*** Looping through 5.2. Iter = 2604 


  iteration 2604; minNextMutationTime = 1984.82; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 72



*** Looping through 5.2. Iter = 2605 


  iteration 2605; minNextMutationTime = 1984.82; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 74



*** Looping through 5.2. Iter = 2606 


  iteration 2606; minNextMutationTime = 1984.84; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 268



*** Looping through 5.2. Iter = 2607 


  iteration 2607; minNextMutationTime = 1984.84; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 109



*** Looping through 5.2. Iter = 2608 


  iteration 2608; minNextMutationTime = 1984.86; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 114



*** Looping through 5.2. Iter = 2609 


  iteration 2609; minNextMutationTime = 1984.88; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 401



*** Looping through 5.2. Iter = 2610 


  iteration 2610; minNextMutationTime = 1984.89; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 75



*** Looping through 5.2. Iter = 2611 


  iteration 2611; minNextMutationTime = 1984.89; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 402



*** Looping through 5.2. Iter = 2612 


  iteration 2612; minNextMutationTime = 1984.9; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 115



*** Looping through 5.2. Iter = 2613 


  iteration 2613; minNextMutationTime = 1984.91; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 118



*** Looping through 5.2. Iter = 2614 


  iteration 2614; minNextMutationTime = 1984.92; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 269



*** Looping through 5.2. Iter = 2615 


  iteration 2615; minNextMutationTime = 1984.92; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 148



*** Looping through 5.2. Iter = 2616 


  iteration 2616; minNextMutationTime = 1984.97; timeNextPopSample = 1985; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4844



*** Looping through 5.2. Iter = 2617 


  iteration 2617; minNextMutationTime = 1995; timeNextPopSample = 1985; popParams.size() = 9

 We are SAMPLING at time 1985



*** Looping through 5.2. Iter = 2618 


  iteration 2618; minNextMutationTime = 1985; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 144



*** Looping through 5.2. Iter = 2619 


  iteration 2619; minNextMutationTime = 1985.04; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4882



*** Looping through 5.2. Iter = 2620 


  iteration 2620; minNextMutationTime = 1985.08; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 152



*** Looping through 5.2. Iter = 2621 


  iteration 2621; minNextMutationTime = 1985.15; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 282



*** Looping through 5.2. Iter = 2622 


  iteration 2622; minNextMutationTime = 1985.17; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 115



*** Looping through 5.2. Iter = 2623 


  iteration 2623; minNextMutationTime = 1985.22; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4967



*** Looping through 5.2. Iter = 2624 


  iteration 2624; minNextMutationTime = 1985.23; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 78



*** Looping through 5.2. Iter = 2625 


  iteration 2625; minNextMutationTime = 1985.25; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 81



*** Looping through 5.2. Iter = 2626 


  iteration 2626; minNextMutationTime = 1985.26; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 284



*** Looping through 5.2. Iter = 2627 


  iteration 2627; minNextMutationTime = 1985.27; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 285



*** Looping through 5.2. Iter = 2628 


  iteration 2628; minNextMutationTime = 1985.28; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 157



*** Looping through 5.2. Iter = 2629 


  iteration 2629; minNextMutationTime = 1985.28; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 82



*** Looping through 5.2. Iter = 2630 


  iteration 2630; minNextMutationTime = 1985.3; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 156



*** Looping through 5.2. Iter = 2631 


  iteration 2631; minNextMutationTime = 1985.3; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 83



*** Looping through 5.2. Iter = 2632 


  iteration 2632; minNextMutationTime = 1985.32; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 114



*** Looping through 5.2. Iter = 2633 


  iteration 2633; minNextMutationTime = 1985.41; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 290



*** Looping through 5.2. Iter = 2634 


  iteration 2634; minNextMutationTime = 1985.43; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 116



*** Looping through 5.2. Iter = 2635 


  iteration 2635; minNextMutationTime = 1985.44; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4968



*** Looping through 5.2. Iter = 2636 


  iteration 2636; minNextMutationTime = 1985.61; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 77



*** Looping through 5.2. Iter = 2637 


  iteration 2637; minNextMutationTime = 1985.66; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 294



*** Looping through 5.2. Iter = 2638 


  iteration 2638; minNextMutationTime = 1985.67; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 297



*** Looping through 5.2. Iter = 2639 


  iteration 2639; minNextMutationTime = 1985.69; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 116



*** Looping through 5.2. Iter = 2640 


  iteration 2640; minNextMutationTime = 1985.69; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4970



*** Looping through 5.2. Iter = 2641 


  iteration 2641; minNextMutationTime = 1985.73; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 412



*** Looping through 5.2. Iter = 2642 


  iteration 2642; minNextMutationTime = 1985.79; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 293



*** Looping through 5.2. Iter = 2643 


  iteration 2643; minNextMutationTime = 1985.82; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 293



*** Looping through 5.2. Iter = 2644 


  iteration 2644; minNextMutationTime = 1985.84; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 121



*** Looping through 5.2. Iter = 2645 


  iteration 2645; minNextMutationTime = 1985.84; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 413



*** Looping through 5.2. Iter = 2646 


  iteration 2646; minNextMutationTime = 1985.85; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 156



*** Looping through 5.2. Iter = 2647 


  iteration 2647; minNextMutationTime = 1985.88; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 118



*** Looping through 5.2. Iter = 2648 


  iteration 2648; minNextMutationTime = 1985.93; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 4986



*** Looping through 5.2. Iter = 2649 


  iteration 2649; minNextMutationTime = 1985.96; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 122



*** Looping through 5.2. Iter = 2650 


  iteration 2650; minNextMutationTime = 1985.98; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 158



*** Looping through 5.2. Iter = 2651 


  iteration 2651; minNextMutationTime = 1985.99; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 413



*** Looping through 5.2. Iter = 2652 


  iteration 2652; minNextMutationTime = 1985.99; timeNextPopSample = 1986; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 78



*** Looping through 5.2. Iter = 2653 


  iteration 2653; minNextMutationTime = 1996; timeNextPopSample = 1986; popParams.size() = 9

 We are SAMPLING at time 1986



*** Looping through 5.2. Iter = 2654 


  iteration 2654; minNextMutationTime = 1986.02; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 418



*** Looping through 5.2. Iter = 2655 


  iteration 2655; minNextMutationTime = 1986.06; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 121



*** Looping through 5.2. Iter = 2656 


  iteration 2656; minNextMutationTime = 1986.06; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 296



*** Looping through 5.2. Iter = 2657 


  iteration 2657; minNextMutationTime = 1986.07; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 80



*** Looping through 5.2. Iter = 2658 


  iteration 2658; minNextMutationTime = 1986.08; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 80



*** Looping through 5.2. Iter = 2659 


  iteration 2659; minNextMutationTime = 1986.1; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 85



*** Looping through 5.2. Iter = 2660 


  iteration 2660; minNextMutationTime = 1986.13; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 123



*** Looping through 5.2. Iter = 2661 


  iteration 2661; minNextMutationTime = 1986.14; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 297



*** Looping through 5.2. Iter = 2662 


  iteration 2662; minNextMutationTime = 1986.15; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5014



*** Looping through 5.2. Iter = 2663 


  iteration 2663; minNextMutationTime = 1986.16; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 125



*** Looping through 5.2. Iter = 2664 


  iteration 2664; minNextMutationTime = 1986.16; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 86



*** Looping through 5.2. Iter = 2665 


  iteration 2665; minNextMutationTime = 1986.17; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 298



*** Looping through 5.2. Iter = 2666 


  iteration 2666; minNextMutationTime = 1986.18; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 421



*** Looping through 5.2. Iter = 2667 


  iteration 2667; minNextMutationTime = 1986.2; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5043



*** Looping through 5.2. Iter = 2668 


  iteration 2668; minNextMutationTime = 1986.22; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 157



*** Looping through 5.2. Iter = 2669 


  iteration 2669; minNextMutationTime = 1986.28; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 84



*** Looping through 5.2. Iter = 2670 


  iteration 2670; minNextMutationTime = 1986.29; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 418



*** Looping through 5.2. Iter = 2671 


  iteration 2671; minNextMutationTime = 1986.29; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5044



*** Looping through 5.2. Iter = 2672 


  iteration 2672; minNextMutationTime = 1986.29; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5047



*** Looping through 5.2. Iter = 2673 


  iteration 2673; minNextMutationTime = 1986.3; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 420



*** Looping through 5.2. Iter = 2674 


  iteration 2674; minNextMutationTime = 1986.31; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 159



*** Looping through 5.2. Iter = 2675 


  iteration 2675; minNextMutationTime = 1986.31; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 85



*** Looping through 5.2. Iter = 2676 


  iteration 2676; minNextMutationTime = 1986.34; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 87



*** Looping through 5.2. Iter = 2677 


  iteration 2677; minNextMutationTime = 1986.37; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 91



*** Looping through 5.2. Iter = 2678 


  iteration 2678; minNextMutationTime = 1986.39; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 96



*** Looping through 5.2. Iter = 2679 


  iteration 2679; minNextMutationTime = 1986.41; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 127



*** Looping through 5.2. Iter = 2680 


  iteration 2680; minNextMutationTime = 1986.45; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 127



*** Looping through 5.2. Iter = 2681 


  iteration 2681; minNextMutationTime = 1986.46; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 160



*** Looping through 5.2. Iter = 2682 


  iteration 2682; minNextMutationTime = 1986.54; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 160



*** Looping through 5.2. Iter = 2683 


  iteration 2683; minNextMutationTime = 1986.56; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 98



*** Looping through 5.2. Iter = 2684 


  iteration 2684; minNextMutationTime = 1986.57; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 159



*** Looping through 5.2. Iter = 2685 


  iteration 2685; minNextMutationTime = 1986.59; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 128



*** Looping through 5.2. Iter = 2686 


  iteration 2686; minNextMutationTime = 1986.6; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5061



*** Looping through 5.2. Iter = 2687 


  iteration 2687; minNextMutationTime = 1986.63; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 98



*** Looping through 5.2. Iter = 2688 


  iteration 2688; minNextMutationTime = 1986.66; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5113



*** Looping through 5.2. Iter = 2689 


  iteration 2689; minNextMutationTime = 1986.67; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 430



*** Looping through 5.2. Iter = 2690 


  iteration 2690; minNextMutationTime = 1986.68; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 435



*** Looping through 5.2. Iter = 2691 


  iteration 2691; minNextMutationTime = 1986.71; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 434



*** Looping through 5.2. Iter = 2692 


  iteration 2692; minNextMutationTime = 1986.73; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5116



*** Looping through 5.2. Iter = 2693 


  iteration 2693; minNextMutationTime = 1986.74; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 437



*** Looping through 5.2. Iter = 2694 


  iteration 2694; minNextMutationTime = 1986.74; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 297



*** Looping through 5.2. Iter = 2695 


  iteration 2695; minNextMutationTime = 1986.82; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 458



*** Looping through 5.2. Iter = 2696 


  iteration 2696; minNextMutationTime = 1986.84; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 96



*** Looping through 5.2. Iter = 2697 


  iteration 2697; minNextMutationTime = 1986.86; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 131



*** Looping through 5.2. Iter = 2698 


  iteration 2698; minNextMutationTime = 1986.9; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5195



*** Looping through 5.2. Iter = 2699 


  iteration 2699; minNextMutationTime = 1986.91; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 299



*** Looping through 5.2. Iter = 2700 


  iteration 2700; minNextMutationTime = 1986.92; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5190



*** Looping through 5.2. Iter = 2701 


  iteration 2701; minNextMutationTime = 1986.92; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 301



*** Looping through 5.2. Iter = 2702 


  iteration 2702; minNextMutationTime = 1986.95; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 132



*** Looping through 5.2. Iter = 2703 


  iteration 2703; minNextMutationTime = 1986.95; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 133



*** Looping through 5.2. Iter = 2704 


  iteration 2704; minNextMutationTime = 1986.95; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 302



*** Looping through 5.2. Iter = 2705 


  iteration 2705; minNextMutationTime = 1986.95; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 459



*** Looping through 5.2. Iter = 2706 


  iteration 2706; minNextMutationTime = 1986.95; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 460



*** Looping through 5.2. Iter = 2707 


  iteration 2707; minNextMutationTime = 1986.96; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 135



*** Looping through 5.2. Iter = 2708 


  iteration 2708; minNextMutationTime = 1986.98; timeNextPopSample = 1987; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 98



*** Looping through 5.2. Iter = 2709 


  iteration 2709; minNextMutationTime = 1997; timeNextPopSample = 1987; popParams.size() = 9

 We are SAMPLING at time 1987



*** Looping through 5.2. Iter = 2710 


  iteration 2710; minNextMutationTime = 1987; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 309



*** Looping through 5.2. Iter = 2711 


  iteration 2711; minNextMutationTime = 1987.03; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 102



*** Looping through 5.2. Iter = 2712 


  iteration 2712; minNextMutationTime = 1987.04; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 309



*** Looping through 5.2. Iter = 2713 


  iteration 2713; minNextMutationTime = 1987.04; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 134



*** Looping through 5.2. Iter = 2714 


  iteration 2714; minNextMutationTime = 1987.04; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 135



*** Looping through 5.2. Iter = 2715 


  iteration 2715; minNextMutationTime = 1987.08; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 160



*** Looping through 5.2. Iter = 2716 


  iteration 2716; minNextMutationTime = 1987.09; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 468



*** Looping through 5.2. Iter = 2717 


  iteration 2717; minNextMutationTime = 1987.13; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 101



*** Looping through 5.2. Iter = 2718 


  iteration 2718; minNextMutationTime = 1987.13; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 310



*** Looping through 5.2. Iter = 2719 


  iteration 2719; minNextMutationTime = 1987.16; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 167



*** Looping through 5.2. Iter = 2720 


  iteration 2720; minNextMutationTime = 1987.19; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 466



*** Looping through 5.2. Iter = 2721 


  iteration 2721; minNextMutationTime = 1987.19; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 310



*** Looping through 5.2. Iter = 2722 


  iteration 2722; minNextMutationTime = 1987.21; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5293



*** Looping through 5.2. Iter = 2723 


  iteration 2723; minNextMutationTime = 1987.23; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 139



*** Looping through 5.2. Iter = 2724 


  iteration 2724; minNextMutationTime = 1987.3; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 172



*** Looping through 5.2. Iter = 2725 


  iteration 2725; minNextMutationTime = 1987.31; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5317



*** Looping through 5.2. Iter = 2726 


  iteration 2726; minNextMutationTime = 1987.34; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 145



*** Looping through 5.2. Iter = 2727 


  iteration 2727; minNextMutationTime = 1987.35; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 312



*** Looping through 5.2. Iter = 2728 


  iteration 2728; minNextMutationTime = 1987.38; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 466



*** Looping through 5.2. Iter = 2729 


  iteration 2729; minNextMutationTime = 1987.39; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 145



*** Looping through 5.2. Iter = 2730 


  iteration 2730; minNextMutationTime = 1987.4; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 104



*** Looping through 5.2. Iter = 2731 


  iteration 2731; minNextMutationTime = 1987.42; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 317



*** Looping through 5.2. Iter = 2732 


  iteration 2732; minNextMutationTime = 1987.44; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 172



*** Looping through 5.2. Iter = 2733 


  iteration 2733; minNextMutationTime = 1987.44; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5322



*** Looping through 5.2. Iter = 2734 


  iteration 2734; minNextMutationTime = 1987.47; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 171



*** Looping through 5.2. Iter = 2735 


  iteration 2735; minNextMutationTime = 1987.49; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5360



*** Looping through 5.2. Iter = 2736 


  iteration 2736; minNextMutationTime = 1987.5; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5373



*** Looping through 5.2. Iter = 2737 


  iteration 2737; minNextMutationTime = 1987.51; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 105



*** Looping through 5.2. Iter = 2738 


  iteration 2738; minNextMutationTime = 1987.51; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 318



*** Looping through 5.2. Iter = 2739 


  iteration 2739; minNextMutationTime = 1987.56; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 147



*** Looping through 5.2. Iter = 2740 


  iteration 2740; minNextMutationTime = 1987.58; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 104



*** Looping through 5.2. Iter = 2741 


  iteration 2741; minNextMutationTime = 1987.6; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 465



*** Looping through 5.2. Iter = 2742 


  iteration 2742; minNextMutationTime = 1987.63; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 110



*** Looping through 5.2. Iter = 2743 


  iteration 2743; minNextMutationTime = 1987.64; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5393



*** Looping through 5.2. Iter = 2744 


  iteration 2744; minNextMutationTime = 1987.67; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 146



*** Looping through 5.2. Iter = 2745 


  iteration 2745; minNextMutationTime = 1987.68; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 470



*** Looping through 5.2. Iter = 2746 


  iteration 2746; minNextMutationTime = 1987.69; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 470



*** Looping through 5.2. Iter = 2747 


  iteration 2747; minNextMutationTime = 1987.71; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 467



*** Looping through 5.2. Iter = 2748 


  iteration 2748; minNextMutationTime = 1987.71; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5394



*** Looping through 5.2. Iter = 2749 


  iteration 2749; minNextMutationTime = 1987.74; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 459



*** Looping through 5.2. Iter = 2750 


  iteration 2750; minNextMutationTime = 1987.74; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 147



*** Looping through 5.2. Iter = 2751 


  iteration 2751; minNextMutationTime = 1987.74; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 111



*** Looping through 5.2. Iter = 2752 


  iteration 2752; minNextMutationTime = 1987.74; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 460



*** Looping through 5.2. Iter = 2753 


  iteration 2753; minNextMutationTime = 1987.75; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 149



*** Looping through 5.2. Iter = 2754 


  iteration 2754; minNextMutationTime = 1987.76; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 464



*** Looping through 5.2. Iter = 2755 


  iteration 2755; minNextMutationTime = 1987.76; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 112



*** Looping through 5.2. Iter = 2756 


  iteration 2756; minNextMutationTime = 1987.76; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 150



*** Looping through 5.2. Iter = 2757 


  iteration 2757; minNextMutationTime = 1987.79; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 173



*** Looping through 5.2. Iter = 2758 


  iteration 2758; minNextMutationTime = 1987.8; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 152



*** Looping through 5.2. Iter = 2759 


  iteration 2759; minNextMutationTime = 1987.81; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 467



*** Looping through 5.2. Iter = 2760 


  iteration 2760; minNextMutationTime = 1987.81; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5393



*** Looping through 5.2. Iter = 2761 


  iteration 2761; minNextMutationTime = 1987.82; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 317



*** Looping through 5.2. Iter = 2762 


  iteration 2762; minNextMutationTime = 1987.84; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5415



*** Looping through 5.2. Iter = 2763 


  iteration 2763; minNextMutationTime = 1987.85; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 113



*** Looping through 5.2. Iter = 2764 


  iteration 2764; minNextMutationTime = 1987.89; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5445



*** Looping through 5.2. Iter = 2765 


  iteration 2765; minNextMutationTime = 1987.9; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 149



*** Looping through 5.2. Iter = 2766 


  iteration 2766; minNextMutationTime = 1987.93; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 175



*** Looping through 5.2. Iter = 2767 


  iteration 2767; minNextMutationTime = 1987.93; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 114



*** Looping through 5.2. Iter = 2768 


  iteration 2768; minNextMutationTime = 1987.93; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 176



*** Looping through 5.2. Iter = 2769 


  iteration 2769; minNextMutationTime = 1987.95; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 148



*** Looping through 5.2. Iter = 2770 


  iteration 2770; minNextMutationTime = 1987.95; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5446



*** Looping through 5.2. Iter = 2771 


  iteration 2771; minNextMutationTime = 1987.98; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 115



*** Looping through 5.2. Iter = 2772 


  iteration 2772; minNextMutationTime = 1987.99; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 470



*** Looping through 5.2. Iter = 2773 


  iteration 2773; minNextMutationTime = 1988; timeNextPopSample = 1988; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 149



*** Looping through 5.2. Iter = 2774 


  iteration 2774; minNextMutationTime = 1998; timeNextPopSample = 1988; popParams.size() = 9

 We are SAMPLING at time 1988



*** Looping through 5.2. Iter = 2775 


  iteration 2775; minNextMutationTime = 1988; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 114



*** Looping through 5.2. Iter = 2776 


  iteration 2776; minNextMutationTime = 1988; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5450



*** Looping through 5.2. Iter = 2777 


  iteration 2777; minNextMutationTime = 1988.02; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 475



*** Looping through 5.2. Iter = 2778 


  iteration 2778; minNextMutationTime = 1988.04; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 179



*** Looping through 5.2. Iter = 2779 


  iteration 2779; minNextMutationTime = 1988.04; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 474



*** Looping through 5.2. Iter = 2780 


  iteration 2780; minNextMutationTime = 1988.06; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 313



*** Looping through 5.2. Iter = 2781 


  iteration 2781; minNextMutationTime = 1988.06; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 115



*** Looping through 5.2. Iter = 2782 


  iteration 2782; minNextMutationTime = 1988.07; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 315



*** Looping through 5.2. Iter = 2783 


  iteration 2783; minNextMutationTime = 1988.08; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 149



*** Looping through 5.2. Iter = 2784 


  iteration 2784; minNextMutationTime = 1988.09; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 114



*** Looping through 5.2. Iter = 2785 


  iteration 2785; minNextMutationTime = 1988.1; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 114



*** Looping through 5.2. Iter = 2786 


  iteration 2786; minNextMutationTime = 1988.12; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5464



*** Looping through 5.2. Iter = 2787 


  iteration 2787; minNextMutationTime = 1988.14; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 153



*** Looping through 5.2. Iter = 2788 


  iteration 2788; minNextMutationTime = 1988.14; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 154



*** Looping through 5.2. Iter = 2789 


  iteration 2789; minNextMutationTime = 1988.18; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5478



*** Looping through 5.2. Iter = 2790 


  iteration 2790; minNextMutationTime = 1988.2; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 114



*** Looping through 5.2. Iter = 2791 


  iteration 2791; minNextMutationTime = 1988.22; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 156



*** Looping through 5.2. Iter = 2792 


  iteration 2792; minNextMutationTime = 1988.23; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 115



*** Looping through 5.2. Iter = 2793 


  iteration 2793; minNextMutationTime = 1988.23; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 318



*** Looping through 5.2. Iter = 2794 


  iteration 2794; minNextMutationTime = 1988.24; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 181



*** Looping through 5.2. Iter = 2795 


  iteration 2795; minNextMutationTime = 1988.24; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 116



*** Looping through 5.2. Iter = 2796 


  iteration 2796; minNextMutationTime = 1988.25; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 318



*** Looping through 5.2. Iter = 2797 


  iteration 2797; minNextMutationTime = 1988.27; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 321



*** Looping through 5.2. Iter = 2798 


  iteration 2798; minNextMutationTime = 1988.28; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 156



*** Looping through 5.2. Iter = 2799 


  iteration 2799; minNextMutationTime = 1988.29; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5474



*** Looping through 5.2. Iter = 2800 


  iteration 2800; minNextMutationTime = 1988.29; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 323



*** Looping through 5.2. Iter = 2801 


  iteration 2801; minNextMutationTime = 1988.29; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 117



*** Looping through 5.2. Iter = 2802 


  iteration 2802; minNextMutationTime = 1988.35; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 486



*** Looping through 5.2. Iter = 2803 


  iteration 2803; minNextMutationTime = 1988.37; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 155



*** Looping through 5.2. Iter = 2804 


  iteration 2804; minNextMutationTime = 1988.41; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 338



*** Looping through 5.2. Iter = 2805 


  iteration 2805; minNextMutationTime = 1988.44; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 345



*** Looping through 5.2. Iter = 2806 


  iteration 2806; minNextMutationTime = 1988.47; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 488



*** Looping through 5.2. Iter = 2807 


  iteration 2807; minNextMutationTime = 1988.49; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 346



*** Looping through 5.2. Iter = 2808 


  iteration 2808; minNextMutationTime = 1988.51; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 345



*** Looping through 5.2. Iter = 2809 


  iteration 2809; minNextMutationTime = 1988.52; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 120



*** Looping through 5.2. Iter = 2810 


  iteration 2810; minNextMutationTime = 1988.54; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 179



*** Looping through 5.2. Iter = 2811 


  iteration 2811; minNextMutationTime = 1988.54; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 181



*** Looping through 5.2. Iter = 2812 


  iteration 2812; minNextMutationTime = 1988.57; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 498



*** Looping through 5.2. Iter = 2813 


  iteration 2813; minNextMutationTime = 1988.57; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 158



*** Looping through 5.2. Iter = 2814 


  iteration 2814; minNextMutationTime = 1988.58; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 182



*** Looping through 5.2. Iter = 2815 


  iteration 2815; minNextMutationTime = 1988.58; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 120



*** Looping through 5.2. Iter = 2816 


  iteration 2816; minNextMutationTime = 1988.59; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 122



*** Looping through 5.2. Iter = 2817 


  iteration 2817; minNextMutationTime = 1988.59; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 122



*** Looping through 5.2. Iter = 2818 


  iteration 2818; minNextMutationTime = 1988.63; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5542



*** Looping through 5.2. Iter = 2819 


  iteration 2819; minNextMutationTime = 1988.65; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 123



*** Looping through 5.2. Iter = 2820 


  iteration 2820; minNextMutationTime = 1988.66; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5565



*** Looping through 5.2. Iter = 2821 


  iteration 2821; minNextMutationTime = 1988.67; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5572



*** Looping through 5.2. Iter = 2822 


  iteration 2822; minNextMutationTime = 1988.71; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 155



*** Looping through 5.2. Iter = 2823 


  iteration 2823; minNextMutationTime = 1988.71; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 346



*** Looping through 5.2. Iter = 2824 


  iteration 2824; minNextMutationTime = 1988.72; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 122



*** Looping through 5.2. Iter = 2825 


  iteration 2825; minNextMutationTime = 1988.76; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 152



*** Looping through 5.2. Iter = 2826 


  iteration 2826; minNextMutationTime = 1988.76; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 348



*** Looping through 5.2. Iter = 2827 


  iteration 2827; minNextMutationTime = 1988.77; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 351



*** Looping through 5.2. Iter = 2828 


  iteration 2828; minNextMutationTime = 1988.79; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 501



*** Looping through 5.2. Iter = 2829 


  iteration 2829; minNextMutationTime = 1988.79; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5573



*** Looping through 5.2. Iter = 2830 


  iteration 2830; minNextMutationTime = 1988.81; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5568



*** Looping through 5.2. Iter = 2831 


  iteration 2831; minNextMutationTime = 1988.82; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 155



*** Looping through 5.2. Iter = 2832 


  iteration 2832; minNextMutationTime = 1988.83; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 182



*** Looping through 5.2. Iter = 2833 


  iteration 2833; minNextMutationTime = 1988.83; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 352



*** Looping through 5.2. Iter = 2834 


  iteration 2834; minNextMutationTime = 1988.83; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 503



*** Looping through 5.2. Iter = 2835 


  iteration 2835; minNextMutationTime = 1988.87; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 157



*** Looping through 5.2. Iter = 2836 


  iteration 2836; minNextMutationTime = 1988.88; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 158



*** Looping through 5.2. Iter = 2837 


  iteration 2837; minNextMutationTime = 1988.89; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 159



*** Looping through 5.2. Iter = 2838 


  iteration 2838; minNextMutationTime = 1988.91; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 509



*** Looping through 5.2. Iter = 2839 


  iteration 2839; minNextMutationTime = 1988.94; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5653



*** Looping through 5.2. Iter = 2840 


  iteration 2840; minNextMutationTime = 1988.96; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 124



*** Looping through 5.2. Iter = 2841 


  iteration 2841; minNextMutationTime = 1988.96; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 125



*** Looping through 5.2. Iter = 2842 


  iteration 2842; minNextMutationTime = 1988.96; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 510



*** Looping through 5.2. Iter = 2843 


  iteration 2843; minNextMutationTime = 1988.96; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 511



*** Looping through 5.2. Iter = 2844 


  iteration 2844; minNextMutationTime = 1988.97; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5683



*** Looping through 5.2. Iter = 2845 


  iteration 2845; minNextMutationTime = 1988.98; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5702



*** Looping through 5.2. Iter = 2846 


  iteration 2846; minNextMutationTime = 1988.99; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 186



*** Looping through 5.2. Iter = 2847 


  iteration 2847; minNextMutationTime = 1988.99; timeNextPopSample = 1989; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 514



*** Looping through 5.2. Iter = 2848 


  iteration 2848; minNextMutationTime = 1999; timeNextPopSample = 1989; popParams.size() = 9

 We are SAMPLING at time 1989



*** Looping through 5.2. Iter = 2849 


  iteration 2849; minNextMutationTime = 1989.01; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5697



*** Looping through 5.2. Iter = 2850 


  iteration 2850; minNextMutationTime = 1989.03; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 157



*** Looping through 5.2. Iter = 2851 


  iteration 2851; minNextMutationTime = 1989.03; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 128



*** Looping through 5.2. Iter = 2852 


  iteration 2852; minNextMutationTime = 1989.03; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 519



*** Looping through 5.2. Iter = 2853 


  iteration 2853; minNextMutationTime = 1989.04; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 156



*** Looping through 5.2. Iter = 2854 


  iteration 2854; minNextMutationTime = 1989.04; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 129



*** Looping through 5.2. Iter = 2855 


  iteration 2855; minNextMutationTime = 1989.06; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5695



*** Looping through 5.2. Iter = 2856 


  iteration 2856; minNextMutationTime = 1989.07; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 159



*** Looping through 5.2. Iter = 2857 


  iteration 2857; minNextMutationTime = 1989.09; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 193



*** Looping through 5.2. Iter = 2858 


  iteration 2858; minNextMutationTime = 1989.11; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 157



*** Looping through 5.2. Iter = 2859 


  iteration 2859; minNextMutationTime = 1989.11; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5694



*** Looping through 5.2. Iter = 2860 


  iteration 2860; minNextMutationTime = 1989.14; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 165



*** Looping through 5.2. Iter = 2861 


  iteration 2861; minNextMutationTime = 1989.15; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 354



*** Looping through 5.2. Iter = 2862 


  iteration 2862; minNextMutationTime = 1989.16; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 516



*** Looping through 5.2. Iter = 2863 


  iteration 2863; minNextMutationTime = 1989.17; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 164



*** Looping through 5.2. Iter = 2864 


  iteration 2864; minNextMutationTime = 1989.17; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 355



*** Looping through 5.2. Iter = 2865 


  iteration 2865; minNextMutationTime = 1989.18; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 518



*** Looping through 5.2. Iter = 2866 


  iteration 2866; minNextMutationTime = 1989.18; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 520



*** Looping through 5.2. Iter = 2867 


  iteration 2867; minNextMutationTime = 1989.19; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 131



*** Looping through 5.2. Iter = 2868 


  iteration 2868; minNextMutationTime = 1989.19; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 132



*** Looping through 5.2. Iter = 2869 


  iteration 2869; minNextMutationTime = 1989.21; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 193



*** Looping through 5.2. Iter = 2870 


  iteration 2870; minNextMutationTime = 1989.23; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 365



*** Looping through 5.2. Iter = 2871 


  iteration 2871; minNextMutationTime = 1989.25; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 369



*** Looping through 5.2. Iter = 2872 


  iteration 2872; minNextMutationTime = 1989.25; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 5697



*** Looping through 5.2. Iter = 2873 


  iteration 2873; minNextMutationTime = 1989.26; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 194



*** Looping through 5.2. Iter = 2874 


  iteration 2874; minNextMutationTime = 1989.26; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 520



*** Looping through 5.2. Iter = 2875 


  iteration 2875; minNextMutationTime = 1989.29; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 164



*** Looping through 5.2. Iter = 2876 


  iteration 2876; minNextMutationTime = 1989.3; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 525



*** Looping through 5.2. Iter = 2877 


  iteration 2877; minNextMutationTime = 1989.32; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 525



*** Looping through 5.2. Iter = 2878 


  iteration 2878; minNextMutationTime = 1989.33; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 524



*** Looping through 5.2. Iter = 2879 


  iteration 2879; minNextMutationTime = 1989.33; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 371



*** Looping through 5.2. Iter = 2880 


  iteration 2880; minNextMutationTime = 1989.35; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 375



*** Looping through 5.2. Iter = 2881 


  iteration 2881; minNextMutationTime = 1989.37; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 197



*** Looping through 5.2. Iter = 2882 


  iteration 2882; minNextMutationTime = 1989.4; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 167



*** Looping through 5.2. Iter = 2883 


  iteration 2883; minNextMutationTime = 1989.41; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 377



*** Looping through 5.2. Iter = 2884 


  iteration 2884; minNextMutationTime = 1989.41; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 526



*** Looping through 5.2. Iter = 2885 


  iteration 2885; minNextMutationTime = 1989.42; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 531



*** Looping through 5.2. Iter = 2886 


  iteration 2886; minNextMutationTime = 1989.43; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 535



*** Looping through 5.2. Iter = 2887 


  iteration 2887; minNextMutationTime = 1989.44; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 203



*** Looping through 5.2. Iter = 2888 


  iteration 2888; minNextMutationTime = 1989.45; timeNextPopSample = 1990; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 205



*** Looping through 5.2. Iter = 2889 


  iteration 2889; minNextMutationTime = 1989.52; timeNextPopSample = 1990; popParams.size() = 9

     Creating new species   9         from species 0


*** Looping through 5.2. Iter = 2890 


  iteration 2890; minNextMutationTime = 1989.55; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 536



*** Looping through 5.2. Iter = 2891 


  iteration 2891; minNextMutationTime = 1989.55; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 538



*** Looping through 5.2. Iter = 2892 


  iteration 2892; minNextMutationTime = 1989.56; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 131



*** Looping through 5.2. Iter = 2893 


  iteration 2893; minNextMutationTime = 1989.56; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 404



*** Looping through 5.2. Iter = 2894 


  iteration 2894; minNextMutationTime = 1989.58; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 534



*** Looping through 5.2. Iter = 2895 


  iteration 2895; minNextMutationTime = 1989.58; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 131



*** Looping through 5.2. Iter = 2896 


  iteration 2896; minNextMutationTime = 1989.62; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 540



*** Looping through 5.2. Iter = 2897 


  iteration 2897; minNextMutationTime = 1989.62; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 168



*** Looping through 5.2. Iter = 2898 


  iteration 2898; minNextMutationTime = 1989.63; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 419



*** Looping through 5.2. Iter = 2899 


  iteration 2899; minNextMutationTime = 1989.64; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 170



*** Looping through 5.2. Iter = 2900 


  iteration 2900; minNextMutationTime = 1989.65; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 546



*** Looping through 5.2. Iter = 2901 


  iteration 2901; minNextMutationTime = 1989.67; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 541



*** Looping through 5.2. Iter = 2902 


  iteration 2902; minNextMutationTime = 1989.67; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 143



*** Looping through 5.2. Iter = 2903 


  iteration 2903; minNextMutationTime = 1989.68; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6015



*** Looping through 5.2. Iter = 2904 


  iteration 2904; minNextMutationTime = 1989.68; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 144



*** Looping through 5.2. Iter = 2905 


  iteration 2905; minNextMutationTime = 1989.68; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 169



*** Looping through 5.2. Iter = 2906 


  iteration 2906; minNextMutationTime = 1989.68; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 548



*** Looping through 5.2. Iter = 2907 


  iteration 2907; minNextMutationTime = 1989.7; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 553



*** Looping through 5.2. Iter = 2908 


  iteration 2908; minNextMutationTime = 1989.71; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 144



*** Looping through 5.2. Iter = 2909 


  iteration 2909; minNextMutationTime = 1989.72; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 431



*** Looping through 5.2. Iter = 2910 


  iteration 2910; minNextMutationTime = 1989.73; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 432



*** Looping through 5.2. Iter = 2911 


  iteration 2911; minNextMutationTime = 1989.74; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 217



*** Looping through 5.2. Iter = 2912 


  iteration 2912; minNextMutationTime = 1989.75; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 220



*** Looping through 5.2. Iter = 2913 


  iteration 2913; minNextMutationTime = 1989.77; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 219



*** Looping through 5.2. Iter = 2914 


  iteration 2914; minNextMutationTime = 1989.78; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 170



*** Looping through 5.2. Iter = 2915 


  iteration 2915; minNextMutationTime = 1989.78; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 172



*** Looping through 5.2. Iter = 2916 


  iteration 2916; minNextMutationTime = 1989.79; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 172



*** Looping through 5.2. Iter = 2917 


  iteration 2917; minNextMutationTime = 1989.79; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 432



*** Looping through 5.2. Iter = 2918 


  iteration 2918; minNextMutationTime = 1989.81; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 173



*** Looping through 5.2. Iter = 2919 


  iteration 2919; minNextMutationTime = 1989.84; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 439



*** Looping through 5.2. Iter = 2920 


  iteration 2920; minNextMutationTime = 1989.86; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 220



*** Looping through 5.2. Iter = 2921 


  iteration 2921; minNextMutationTime = 1989.88; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 228



*** Looping through 5.2. Iter = 2922 


  iteration 2922; minNextMutationTime = 1989.89; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 174



*** Looping through 5.2. Iter = 2923 


  iteration 2923; minNextMutationTime = 1989.93; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 147



*** Looping through 5.2. Iter = 2924 


  iteration 2924; minNextMutationTime = 1989.94; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 454



*** Looping through 5.2. Iter = 2925 


  iteration 2925; minNextMutationTime = 1989.95; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6372



*** Looping through 5.2. Iter = 2926 


  iteration 2926; minNextMutationTime = 1989.96; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 149



*** Looping through 5.2. Iter = 2927 


  iteration 2927; minNextMutationTime = 1989.99; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 235



*** Looping through 5.2. Iter = 2928 


  iteration 2928; minNextMutationTime = 1989.99; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6458



*** Looping through 5.2. Iter = 2929 


  iteration 2929; minNextMutationTime = 1990; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6463



*** Looping through 5.2. Iter = 2930 


  iteration 2930; minNextMutationTime = 1990; timeNextPopSample = 1990; popParams.size() = 10

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 188



*** Looping through 5.2. Iter = 2931 


  iteration 2931; minNextMutationTime = 2000; timeNextPopSample = 1990; popParams.size() = 10

 We are SAMPLING at time 1990



*** Looping through 5.2. Iter = 2932 


  iteration 2932; minNextMutationTime = 1990.01; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 236



*** Looping through 5.2. Iter = 2933 


  iteration 2933; minNextMutationTime = 1990.01; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 153



*** Looping through 5.2. Iter = 2934 


  iteration 2934; minNextMutationTime = 1990.01; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 583



*** Looping through 5.2. Iter = 2935 


  iteration 2935; minNextMutationTime = 1990.02; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 153



*** Looping through 5.2. Iter = 2936 


  iteration 2936; minNextMutationTime = 1990.03; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6464



*** Looping through 5.2. Iter = 2937 


  iteration 2937; minNextMutationTime = 1990.04; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6479



*** Looping through 5.2. Iter = 2938 


  iteration 2938; minNextMutationTime = 1990.04; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 237



*** Looping through 5.2. Iter = 2939 


  iteration 2939; minNextMutationTime = 1990.07; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 469



*** Looping through 5.2. Iter = 2940 


  iteration 2940; minNextMutationTime = 1990.07; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 583



*** Looping through 5.2. Iter = 2941 


  iteration 2941; minNextMutationTime = 1990.08; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 474



*** Looping through 5.2. Iter = 2942 


  iteration 2942; minNextMutationTime = 1990.09; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 192



*** Looping through 5.2. Iter = 2943 


  iteration 2943; minNextMutationTime = 1990.1; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 240



*** Looping through 5.2. Iter = 2944 


  iteration 2944; minNextMutationTime = 1990.14; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 476



*** Looping through 5.2. Iter = 2945 


  iteration 2945; minNextMutationTime = 1990.23; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 510



*** Looping through 5.2. Iter = 2946 


  iteration 2946; minNextMutationTime = 1990.24; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 153



*** Looping through 5.2. Iter = 2947 


  iteration 2947; minNextMutationTime = 1990.24; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 155



*** Looping through 5.2. Iter = 2948 


  iteration 2948; minNextMutationTime = 1990.26; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 503



*** Looping through 5.2. Iter = 2949 


  iteration 2949; minNextMutationTime = 1990.27; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 506



*** Looping through 5.2. Iter = 2950 


  iteration 2950; minNextMutationTime = 1990.28; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 503



*** Looping through 5.2. Iter = 2951 


  iteration 2951; minNextMutationTime = 1990.29; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 159



*** Looping through 5.2. Iter = 2952 


  iteration 2952; minNextMutationTime = 1990.32; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 194



*** Looping through 5.2. Iter = 2953 


  iteration 2953; minNextMutationTime = 1990.34; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6515



*** Looping through 5.2. Iter = 2954 


  iteration 2954; minNextMutationTime = 1990.36; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 192



*** Looping through 5.2. Iter = 2955 


  iteration 2955; minNextMutationTime = 1990.38; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 503



*** Looping through 5.2. Iter = 2956 


  iteration 2956; minNextMutationTime = 1990.38; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6523



*** Looping through 5.2. Iter = 2957 


  iteration 2957; minNextMutationTime = 1990.39; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 159



*** Looping through 5.2. Iter = 2958 


  iteration 2958; minNextMutationTime = 1990.39; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 160



*** Looping through 5.2. Iter = 2959 


  iteration 2959; minNextMutationTime = 1990.45; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 160



*** Looping through 5.2. Iter = 2960 


  iteration 2960; minNextMutationTime = 1990.47; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 189



*** Looping through 5.2. Iter = 2961 


  iteration 2961; minNextMutationTime = 1990.48; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 585



*** Looping through 5.2. Iter = 2962 


  iteration 2962; minNextMutationTime = 1990.48; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 187



*** Looping through 5.2. Iter = 2963 


  iteration 2963; minNextMutationTime = 1990.5; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 509



*** Looping through 5.2. Iter = 2964 


  iteration 2964; minNextMutationTime = 1990.53; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 511



*** Looping through 5.2. Iter = 2965 


  iteration 2965; minNextMutationTime = 1990.53; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 188



*** Looping through 5.2. Iter = 2966 


  iteration 2966; minNextMutationTime = 1990.56; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 241



*** Looping through 5.2. Iter = 2967 


  iteration 2967; minNextMutationTime = 1990.56; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 190



*** Looping through 5.2. Iter = 2968 


  iteration 2968; minNextMutationTime = 1990.56; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 243



*** Looping through 5.2. Iter = 2969 


  iteration 2969; minNextMutationTime = 1990.64; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 245



*** Looping through 5.2. Iter = 2970 


  iteration 2970; minNextMutationTime = 1990.65; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 246



*** Looping through 5.2. Iter = 2971 


  iteration 2971; minNextMutationTime = 1990.68; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 253



*** Looping through 5.2. Iter = 2972 


  iteration 2972; minNextMutationTime = 1990.68; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 586



*** Looping through 5.2. Iter = 2973 


  iteration 2973; minNextMutationTime = 1990.69; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 189



*** Looping through 5.2. Iter = 2974 


  iteration 2974; minNextMutationTime = 1990.69; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6526



*** Looping through 5.2. Iter = 2975 


  iteration 2975; minNextMutationTime = 1990.7; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 160



*** Looping through 5.2. Iter = 2976 


  iteration 2976; minNextMutationTime = 1990.7; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 161



*** Looping through 5.2. Iter = 2977 


  iteration 2977; minNextMutationTime = 1990.72; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 162



*** Looping through 5.2. Iter = 2978 


  iteration 2978; minNextMutationTime = 1990.82; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 163



*** Looping through 5.2. Iter = 2979 


  iteration 2979; minNextMutationTime = 1990.82; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 587



*** Looping through 5.2. Iter = 2980 


  iteration 2980; minNextMutationTime = 1990.83; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6523



*** Looping through 5.2. Iter = 2981 


  iteration 2981; minNextMutationTime = 1990.86; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 591



*** Looping through 5.2. Iter = 2982 


  iteration 2982; minNextMutationTime = 1990.86; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 164



*** Looping through 5.2. Iter = 2983 


  iteration 2983; minNextMutationTime = 1990.87; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 512



*** Looping through 5.2. Iter = 2984 


  iteration 2984; minNextMutationTime = 1990.87; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 252



*** Looping through 5.2. Iter = 2985 


  iteration 2985; minNextMutationTime = 1990.88; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 189



*** Looping through 5.2. Iter = 2986 


  iteration 2986; minNextMutationTime = 1990.89; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 192



*** Looping through 5.2. Iter = 2987 


  iteration 2987; minNextMutationTime = 1990.92; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 254



*** Looping through 5.2. Iter = 2988 


  iteration 2988; minNextMutationTime = 1990.93; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 165



*** Looping through 5.2. Iter = 2989 


  iteration 2989; minNextMutationTime = 1990.93; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 255



*** Looping through 5.2. Iter = 2990 


  iteration 2990; minNextMutationTime = 1990.98; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 598



*** Looping through 5.2. Iter = 2991 


  iteration 2991; minNextMutationTime = 1990.99; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 253



*** Looping through 5.2. Iter = 2992 


  iteration 2992; minNextMutationTime = 1991; timeNextPopSample = 1991; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6525



*** Looping through 5.2. Iter = 2993 


  iteration 2993; minNextMutationTime = 2001; timeNextPopSample = 1991; popParams.size() = 9

 We are SAMPLING at time 1991



*** Looping through 5.2. Iter = 2994 


  iteration 2994; minNextMutationTime = 1991.02; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 167



*** Looping through 5.2. Iter = 2995 


  iteration 2995; minNextMutationTime = 1991.04; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 259



*** Looping through 5.2. Iter = 2996 


  iteration 2996; minNextMutationTime = 1991.05; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 522



*** Looping through 5.2. Iter = 2997 


  iteration 2997; minNextMutationTime = 1991.06; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 522



*** Looping through 5.2. Iter = 2998 


  iteration 2998; minNextMutationTime = 1991.1; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 526



*** Looping through 5.2. Iter = 2999 


  iteration 2999; minNextMutationTime = 1991.13; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 167


    ... iteration 3000
    ... currentTime 1991.13



*** Looping through 5.2. Iter = 3000 


  iteration 3000; minNextMutationTime = 1991.14; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 192



*** Looping through 5.2. Iter = 3001 


  iteration 3001; minNextMutationTime = 1991.14; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 192



*** Looping through 5.2. Iter = 3002 


  iteration 3002; minNextMutationTime = 1991.15; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 263



*** Looping through 5.2. Iter = 3003 


  iteration 3003; minNextMutationTime = 1991.15; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 598



*** Looping through 5.2. Iter = 3004 


  iteration 3004; minNextMutationTime = 1991.16; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 194



*** Looping through 5.2. Iter = 3005 


  iteration 3005; minNextMutationTime = 1991.16; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 526



*** Looping through 5.2. Iter = 3006 


  iteration 3006; minNextMutationTime = 1991.17; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 263



*** Looping through 5.2. Iter = 3007 


  iteration 3007; minNextMutationTime = 1991.17; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 194



*** Looping through 5.2. Iter = 3008 


  iteration 3008; minNextMutationTime = 1991.18; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 194



*** Looping through 5.2. Iter = 3009 


  iteration 3009; minNextMutationTime = 1991.19; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 608



*** Looping through 5.2. Iter = 3010 


  iteration 3010; minNextMutationTime = 1991.19; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 607



*** Looping through 5.2. Iter = 3011 


  iteration 3011; minNextMutationTime = 1991.2; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 266



*** Looping through 5.2. Iter = 3012 


  iteration 3012; minNextMutationTime = 1991.2; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 527



*** Looping through 5.2. Iter = 3013 


  iteration 3013; minNextMutationTime = 1991.21; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 266



*** Looping through 5.2. Iter = 3014 


  iteration 3014; minNextMutationTime = 1991.23; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 268



*** Looping through 5.2. Iter = 3015 


  iteration 3015; minNextMutationTime = 1991.23; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 167



*** Looping through 5.2. Iter = 3016 


  iteration 3016; minNextMutationTime = 1991.24; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 195



*** Looping through 5.2. Iter = 3017 


  iteration 3017; minNextMutationTime = 1991.26; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6577



*** Looping through 5.2. Iter = 3018 


  iteration 3018; minNextMutationTime = 1991.27; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 529



*** Looping through 5.2. Iter = 3019 


  iteration 3019; minNextMutationTime = 1991.28; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 198



*** Looping through 5.2. Iter = 3020 


  iteration 3020; minNextMutationTime = 1991.29; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 271



*** Looping through 5.2. Iter = 3021 


  iteration 3021; minNextMutationTime = 1991.3; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 530



*** Looping through 5.2. Iter = 3022 


  iteration 3022; minNextMutationTime = 1991.32; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 614



*** Looping through 5.2. Iter = 3023 


  iteration 3023; minNextMutationTime = 1991.32; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 271



*** Looping through 5.2. Iter = 3024 


  iteration 3024; minNextMutationTime = 1991.35; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 165



*** Looping through 5.2. Iter = 3025 


  iteration 3025; minNextMutationTime = 1991.35; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 197



*** Looping through 5.2. Iter = 3026 


  iteration 3026; minNextMutationTime = 1991.36; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 273



*** Looping through 5.2. Iter = 3027 


  iteration 3027; minNextMutationTime = 1991.38; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 271



*** Looping through 5.2. Iter = 3028 


  iteration 3028; minNextMutationTime = 1991.38; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 615



*** Looping through 5.2. Iter = 3029 


  iteration 3029; minNextMutationTime = 1991.41; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 620



*** Looping through 5.2. Iter = 3030 


  iteration 3030; minNextMutationTime = 1991.42; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 167



*** Looping through 5.2. Iter = 3031 


  iteration 3031; minNextMutationTime = 1991.42; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 532



*** Looping through 5.2. Iter = 3032 


  iteration 3032; minNextMutationTime = 1991.45; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 550



*** Looping through 5.2. Iter = 3033 


  iteration 3033; minNextMutationTime = 1991.46; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 558



*** Looping through 5.2. Iter = 3034 


  iteration 3034; minNextMutationTime = 1991.46; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 168



*** Looping through 5.2. Iter = 3035 


  iteration 3035; minNextMutationTime = 1991.47; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 271



*** Looping through 5.2. Iter = 3036 


  iteration 3036; minNextMutationTime = 1991.48; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 271



*** Looping through 5.2. Iter = 3037 


  iteration 3037; minNextMutationTime = 1991.53; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6701



*** Looping through 5.2. Iter = 3038 


  iteration 3038; minNextMutationTime = 1991.57; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 628



*** Looping through 5.2. Iter = 3039 


  iteration 3039; minNextMutationTime = 1991.57; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6716



*** Looping through 5.2. Iter = 3040 


  iteration 3040; minNextMutationTime = 1991.59; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6729



*** Looping through 5.2. Iter = 3041 


  iteration 3041; minNextMutationTime = 1991.59; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 169



*** Looping through 5.2. Iter = 3042 


  iteration 3042; minNextMutationTime = 1991.6; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 556



*** Looping through 5.2. Iter = 3043 


  iteration 3043; minNextMutationTime = 1991.61; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6737



*** Looping through 5.2. Iter = 3044 


  iteration 3044; minNextMutationTime = 1991.62; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 557



*** Looping through 5.2. Iter = 3045 


  iteration 3045; minNextMutationTime = 1991.62; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 629



*** Looping through 5.2. Iter = 3046 


  iteration 3046; minNextMutationTime = 1991.63; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 270



*** Looping through 5.2. Iter = 3047 


  iteration 3047; minNextMutationTime = 1991.64; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 199



*** Looping through 5.2. Iter = 3048 


  iteration 3048; minNextMutationTime = 1991.66; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 168



*** Looping through 5.2. Iter = 3049 


  iteration 3049; minNextMutationTime = 1991.67; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 169



*** Looping through 5.2. Iter = 3050 


  iteration 3050; minNextMutationTime = 1991.67; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6735



*** Looping through 5.2. Iter = 3051 


  iteration 3051; minNextMutationTime = 1991.67; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 559



*** Looping through 5.2. Iter = 3052 


  iteration 3052; minNextMutationTime = 1991.68; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 275



*** Looping through 5.2. Iter = 3053 


  iteration 3053; minNextMutationTime = 1991.69; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6737



*** Looping through 5.2. Iter = 3054 


  iteration 3054; minNextMutationTime = 1991.69; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 630



*** Looping through 5.2. Iter = 3055 


  iteration 3055; minNextMutationTime = 1991.7; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 566



*** Looping through 5.2. Iter = 3056 


  iteration 3056; minNextMutationTime = 1991.7; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 278



*** Looping through 5.2. Iter = 3057 


  iteration 3057; minNextMutationTime = 1991.71; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 566



*** Looping through 5.2. Iter = 3058 


  iteration 3058; minNextMutationTime = 1991.72; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 566



*** Looping through 5.2. Iter = 3059 


  iteration 3059; minNextMutationTime = 1991.73; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 279



*** Looping through 5.2. Iter = 3060 


  iteration 3060; minNextMutationTime = 1991.73; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6734



*** Looping through 5.2. Iter = 3061 


  iteration 3061; minNextMutationTime = 1991.74; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 168



*** Looping through 5.2. Iter = 3062 


  iteration 3062; minNextMutationTime = 1991.75; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 200



*** Looping through 5.2. Iter = 3063 


  iteration 3063; minNextMutationTime = 1991.75; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 201



*** Looping through 5.2. Iter = 3064 


  iteration 3064; minNextMutationTime = 1991.77; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 276



*** Looping through 5.2. Iter = 3065 


  iteration 3065; minNextMutationTime = 1991.77; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 631



*** Looping through 5.2. Iter = 3066 


  iteration 3066; minNextMutationTime = 1991.8; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 568



*** Looping through 5.2. Iter = 3067 


  iteration 3067; minNextMutationTime = 1991.82; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 168



*** Looping through 5.2. Iter = 3068 


  iteration 3068; minNextMutationTime = 1991.84; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 278



*** Looping through 5.2. Iter = 3069 


  iteration 3069; minNextMutationTime = 1991.84; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 170



*** Looping through 5.2. Iter = 3070 


  iteration 3070; minNextMutationTime = 1991.87; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 175



*** Looping through 5.2. Iter = 3071 


  iteration 3071; minNextMutationTime = 1991.88; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 572



*** Looping through 5.2. Iter = 3072 


  iteration 3072; minNextMutationTime = 1991.89; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6729



*** Looping through 5.2. Iter = 3073 


  iteration 3073; minNextMutationTime = 1991.9; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 569



*** Looping through 5.2. Iter = 3074 


  iteration 3074; minNextMutationTime = 1991.91; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 277



*** Looping through 5.2. Iter = 3075 


  iteration 3075; minNextMutationTime = 1991.91; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 567



*** Looping through 5.2. Iter = 3076 


  iteration 3076; minNextMutationTime = 1991.91; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 566



*** Looping through 5.2. Iter = 3077 


  iteration 3077; minNextMutationTime = 1991.93; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 177



*** Looping through 5.2. Iter = 3078 


  iteration 3078; minNextMutationTime = 1991.94; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 178



*** Looping through 5.2. Iter = 3079 


  iteration 3079; minNextMutationTime = 1991.95; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6727



*** Looping through 5.2. Iter = 3080 


  iteration 3080; minNextMutationTime = 1991.95; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 567



*** Looping through 5.2. Iter = 3081 


  iteration 3081; minNextMutationTime = 1991.97; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 200



*** Looping through 5.2. Iter = 3082 


  iteration 3082; minNextMutationTime = 1992; timeNextPopSample = 1992; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 582



*** Looping through 5.2. Iter = 3083 


  iteration 3083; minNextMutationTime = 2002; timeNextPopSample = 1992; popParams.size() = 9

 We are SAMPLING at time 1992



*** Looping through 5.2. Iter = 3084 


  iteration 3084; minNextMutationTime = 1992.03; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 648



*** Looping through 5.2. Iter = 3085 


  iteration 3085; minNextMutationTime = 1992.04; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6727



*** Looping through 5.2. Iter = 3086 


  iteration 3086; minNextMutationTime = 1992.04; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6737



*** Looping through 5.2. Iter = 3087 


  iteration 3087; minNextMutationTime = 1992.06; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6771



*** Looping through 5.2. Iter = 3088 


  iteration 3088; minNextMutationTime = 1992.08; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 657



*** Looping through 5.2. Iter = 3089 


  iteration 3089; minNextMutationTime = 1992.09; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6777



*** Looping through 5.2. Iter = 3090 


  iteration 3090; minNextMutationTime = 1992.1; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 283



*** Looping through 5.2. Iter = 3091 


  iteration 3091; minNextMutationTime = 1992.12; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 203



*** Looping through 5.2. Iter = 3092 


  iteration 3092; minNextMutationTime = 1992.12; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 661



*** Looping through 5.2. Iter = 3093 


  iteration 3093; minNextMutationTime = 1992.12; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 664



*** Looping through 5.2. Iter = 3094 


  iteration 3094; minNextMutationTime = 1992.14; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6833



*** Looping through 5.2. Iter = 3095 


  iteration 3095; minNextMutationTime = 1992.14; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 179



*** Looping through 5.2. Iter = 3096 


  iteration 3096; minNextMutationTime = 1992.17; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 666



*** Looping through 5.2. Iter = 3097 


  iteration 3097; minNextMutationTime = 1992.17; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 180



*** Looping through 5.2. Iter = 3098 


  iteration 3098; minNextMutationTime = 1992.2; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 282



*** Looping through 5.2. Iter = 3099 


  iteration 3099; minNextMutationTime = 1992.2; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 587



*** Looping through 5.2. Iter = 3100 


  iteration 3100; minNextMutationTime = 1992.2; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 205



*** Looping through 5.2. Iter = 3101 


  iteration 3101; minNextMutationTime = 1992.21; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 181



*** Looping through 5.2. Iter = 3102 


  iteration 3102; minNextMutationTime = 1992.23; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 206



*** Looping through 5.2. Iter = 3103 


  iteration 3103; minNextMutationTime = 1992.25; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 184



*** Looping through 5.2. Iter = 3104 


  iteration 3104; minNextMutationTime = 1992.25; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 207



*** Looping through 5.2. Iter = 3105 


  iteration 3105; minNextMutationTime = 1992.25; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 590



*** Looping through 5.2. Iter = 3106 


  iteration 3106; minNextMutationTime = 1992.29; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 204



*** Looping through 5.2. Iter = 3107 


  iteration 3107; minNextMutationTime = 1992.29; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 285



*** Looping through 5.2. Iter = 3108 


  iteration 3108; minNextMutationTime = 1992.32; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 182



*** Looping through 5.2. Iter = 3109 


  iteration 3109; minNextMutationTime = 1992.35; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6877



*** Looping through 5.2. Iter = 3110 


  iteration 3110; minNextMutationTime = 1992.35; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6898



*** Looping through 5.2. Iter = 3111 


  iteration 3111; minNextMutationTime = 1992.36; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6899



*** Looping through 5.2. Iter = 3112 


  iteration 3112; minNextMutationTime = 1992.38; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 207



*** Looping through 5.2. Iter = 3113 


  iteration 3113; minNextMutationTime = 1992.38; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 591



*** Looping through 5.2. Iter = 3114 


  iteration 3114; minNextMutationTime = 1992.39; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 592



*** Looping through 5.2. Iter = 3115 


  iteration 3115; minNextMutationTime = 1992.41; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 595



*** Looping through 5.2. Iter = 3116 


  iteration 3116; minNextMutationTime = 1992.42; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 285



*** Looping through 5.2. Iter = 3117 


  iteration 3117; minNextMutationTime = 1992.43; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6907



*** Looping through 5.2. Iter = 3118 


  iteration 3118; minNextMutationTime = 1992.44; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 599



*** Looping through 5.2. Iter = 3119 


  iteration 3119; minNextMutationTime = 1992.46; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 676



*** Looping through 5.2. Iter = 3120 


  iteration 3120; minNextMutationTime = 1992.46; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6927



*** Looping through 5.2. Iter = 3121 


  iteration 3121; minNextMutationTime = 1992.46; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 286



*** Looping through 5.2. Iter = 3122 


  iteration 3122; minNextMutationTime = 1992.48; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 596



*** Looping through 5.2. Iter = 3123 


  iteration 3123; minNextMutationTime = 1992.48; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 183



*** Looping through 5.2. Iter = 3124 


  iteration 3124; minNextMutationTime = 1992.48; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 207



*** Looping through 5.2. Iter = 3125 


  iteration 3125; minNextMutationTime = 1992.48; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 677



*** Looping through 5.2. Iter = 3126 


  iteration 3126; minNextMutationTime = 1992.49; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 601



*** Looping through 5.2. Iter = 3127 


  iteration 3127; minNextMutationTime = 1992.5; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 211



*** Looping through 5.2. Iter = 3128 


  iteration 3128; minNextMutationTime = 1992.52; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 679



*** Looping through 5.2. Iter = 3129 


  iteration 3129; minNextMutationTime = 1992.53; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 678



*** Looping through 5.2. Iter = 3130 


  iteration 3130; minNextMutationTime = 1992.53; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 287



*** Looping through 5.2. Iter = 3131 


  iteration 3131; minNextMutationTime = 1992.54; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 287



*** Looping through 5.2. Iter = 3132 


  iteration 3132; minNextMutationTime = 1992.54; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 212



*** Looping through 5.2. Iter = 3133 


  iteration 3133; minNextMutationTime = 1992.54; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 184



*** Looping through 5.2. Iter = 3134 


  iteration 3134; minNextMutationTime = 1992.55; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 185



*** Looping through 5.2. Iter = 3135 


  iteration 3135; minNextMutationTime = 1992.55; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 213



*** Looping through 5.2. Iter = 3136 


  iteration 3136; minNextMutationTime = 1992.56; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 217



*** Looping through 5.2. Iter = 3137 


  iteration 3137; minNextMutationTime = 1992.56; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 678



*** Looping through 5.2. Iter = 3138 


  iteration 3138; minNextMutationTime = 1992.56; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 599



*** Looping through 5.2. Iter = 3139 


  iteration 3139; minNextMutationTime = 1992.58; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 222



*** Looping through 5.2. Iter = 3140 


  iteration 3140; minNextMutationTime = 1992.6; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 184



*** Looping through 5.2. Iter = 3141 


  iteration 3141; minNextMutationTime = 1992.61; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 679



*** Looping through 5.2. Iter = 3142 


  iteration 3142; minNextMutationTime = 1992.62; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6938



*** Looping through 5.2. Iter = 3143 


  iteration 3143; minNextMutationTime = 1992.62; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 288



*** Looping through 5.2. Iter = 3144 


  iteration 3144; minNextMutationTime = 1992.64; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 297



*** Looping through 5.2. Iter = 3145 


  iteration 3145; minNextMutationTime = 1992.65; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 304



*** Looping through 5.2. Iter = 3146 


  iteration 3146; minNextMutationTime = 1992.66; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 680



*** Looping through 5.2. Iter = 3147 


  iteration 3147; minNextMutationTime = 1992.68; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 606



*** Looping through 5.2. Iter = 3148 


  iteration 3148; minNextMutationTime = 1992.69; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 222



*** Looping through 5.2. Iter = 3149 


  iteration 3149; minNextMutationTime = 1992.69; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 221



*** Looping through 5.2. Iter = 3150 


  iteration 3150; minNextMutationTime = 1992.7; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 304



*** Looping through 5.2. Iter = 3151 


  iteration 3151; minNextMutationTime = 1992.7; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 186



*** Looping through 5.2. Iter = 3152 


  iteration 3152; minNextMutationTime = 1992.74; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 617



*** Looping through 5.2. Iter = 3153 


  iteration 3153; minNextMutationTime = 1992.75; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 618



*** Looping through 5.2. Iter = 3154 


  iteration 3154; minNextMutationTime = 1992.75; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 682



*** Looping through 5.2. Iter = 3155 


  iteration 3155; minNextMutationTime = 1992.75; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 221



*** Looping through 5.2. Iter = 3156 


  iteration 3156; minNextMutationTime = 1992.76; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 187



*** Looping through 5.2. Iter = 3157 


  iteration 3157; minNextMutationTime = 1992.77; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 221



*** Looping through 5.2. Iter = 3158 


  iteration 3158; minNextMutationTime = 1992.78; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6966



*** Looping through 5.2. Iter = 3159 


  iteration 3159; minNextMutationTime = 1992.8; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 188



*** Looping through 5.2. Iter = 3160 


  iteration 3160; minNextMutationTime = 1992.8; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 685



*** Looping through 5.2. Iter = 3161 


  iteration 3161; minNextMutationTime = 1992.82; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 222



*** Looping through 5.2. Iter = 3162 


  iteration 3162; minNextMutationTime = 1992.82; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 304



*** Looping through 5.2. Iter = 3163 


  iteration 3163; minNextMutationTime = 1992.84; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 627



*** Looping through 5.2. Iter = 3164 


  iteration 3164; minNextMutationTime = 1992.84; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6968



*** Looping through 5.2. Iter = 3165 


  iteration 3165; minNextMutationTime = 1992.84; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 628



*** Looping through 5.2. Iter = 3166 


  iteration 3166; minNextMutationTime = 1992.84; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 687



*** Looping through 5.2. Iter = 3167 


  iteration 3167; minNextMutationTime = 1992.86; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 221



*** Looping through 5.2. Iter = 3168 


  iteration 3168; minNextMutationTime = 1992.87; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6970



*** Looping through 5.2. Iter = 3169 


  iteration 3169; minNextMutationTime = 1992.9; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 189



*** Looping through 5.2. Iter = 3170 


  iteration 3170; minNextMutationTime = 1992.91; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 6997



*** Looping through 5.2. Iter = 3171 


  iteration 3171; minNextMutationTime = 1992.91; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 304



*** Looping through 5.2. Iter = 3172 


  iteration 3172; minNextMutationTime = 1992.92; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 221



*** Looping through 5.2. Iter = 3173 


  iteration 3173; minNextMutationTime = 1992.92; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 221



*** Looping through 5.2. Iter = 3174 


  iteration 3174; minNextMutationTime = 1992.93; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 222



*** Looping through 5.2. Iter = 3175 


  iteration 3175; minNextMutationTime = 1992.95; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 691



*** Looping through 5.2. Iter = 3176 


  iteration 3176; minNextMutationTime = 1992.97; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 310



*** Looping through 5.2. Iter = 3177 


  iteration 3177; minNextMutationTime = 1992.97; timeNextPopSample = 1993; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 223



*** Looping through 5.2. Iter = 3178 


  iteration 3178; minNextMutationTime = 2003; timeNextPopSample = 1993; popParams.size() = 9

 We are SAMPLING at time 1993



*** Looping through 5.2. Iter = 3179 


  iteration 3179; minNextMutationTime = 1993; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 189



*** Looping through 5.2. Iter = 3180 


  iteration 3180; minNextMutationTime = 1993.01; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 702



*** Looping through 5.2. Iter = 3181 


  iteration 3181; minNextMutationTime = 1993.01; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 190



*** Looping through 5.2. Iter = 3182 


  iteration 3182; minNextMutationTime = 1993.02; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 311



*** Looping through 5.2. Iter = 3183 


  iteration 3183; minNextMutationTime = 1993.03; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 7052



*** Looping through 5.2. Iter = 3184 


  iteration 3184; minNextMutationTime = 1993.05; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 636



*** Looping through 5.2. Iter = 3185 


  iteration 3185; minNextMutationTime = 1993.05; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 702



*** Looping through 5.2. Iter = 3186 


  iteration 3186; minNextMutationTime = 1993.07; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 192



*** Looping through 5.2. Iter = 3187 


  iteration 3187; minNextMutationTime = 1993.08; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 640



*** Looping through 5.2. Iter = 3188 


  iteration 3188; minNextMutationTime = 1993.08; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 707



*** Looping through 5.2. Iter = 3189 


  iteration 3189; minNextMutationTime = 1993.09; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 191



*** Looping through 5.2. Iter = 3190 


  iteration 3190; minNextMutationTime = 1993.09; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 641



*** Looping through 5.2. Iter = 3191 


  iteration 3191; minNextMutationTime = 1993.09; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 643



*** Looping through 5.2. Iter = 3192 


  iteration 3192; minNextMutationTime = 1993.1; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 642



*** Looping through 5.2. Iter = 3193 


  iteration 3193; minNextMutationTime = 1993.11; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 229



*** Looping through 5.2. Iter = 3194 


  iteration 3194; minNextMutationTime = 1993.12; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 234



*** Looping through 5.2. Iter = 3195 


  iteration 3195; minNextMutationTime = 1993.13; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 235



*** Looping through 5.2. Iter = 3196 


  iteration 3196; minNextMutationTime = 1993.17; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 191



*** Looping through 5.2. Iter = 3197 


  iteration 3197; minNextMutationTime = 1993.17; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 7052



*** Looping through 5.2. Iter = 3198 


  iteration 3198; minNextMutationTime = 1993.18; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 236



*** Looping through 5.2. Iter = 3199 


  iteration 3199; minNextMutationTime = 1993.18; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 7059



*** Looping through 5.2. Iter = 3200 


  iteration 3200; minNextMutationTime = 1993.18; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 191



*** Looping through 5.2. Iter = 3201 


  iteration 3201; minNextMutationTime = 1993.21; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 318



*** Looping through 5.2. Iter = 3202 


  iteration 3202; minNextMutationTime = 1993.22; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 647



*** Looping through 5.2. Iter = 3203 


  iteration 3203; minNextMutationTime = 1993.22; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 711



*** Looping through 5.2. Iter = 3204 


  iteration 3204; minNextMutationTime = 1993.23; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 318



*** Looping through 5.2. Iter = 3205 


  iteration 3205; minNextMutationTime = 1993.23; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 7057



*** Looping through 5.2. Iter = 3206 


  iteration 3206; minNextMutationTime = 1993.23; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 7067



*** Looping through 5.2. Iter = 3207 


  iteration 3207; minNextMutationTime = 1993.27; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 239



*** Looping through 5.2. Iter = 3208 


  iteration 3208; minNextMutationTime = 1993.32; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 659



*** Looping through 5.2. Iter = 3209 


  iteration 3209; minNextMutationTime = 1993.32; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 711



*** Looping through 5.2. Iter = 3210 


  iteration 3210; minNextMutationTime = 1993.32; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 713



*** Looping through 5.2. Iter = 3211 


  iteration 3211; minNextMutationTime = 1993.33; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 7080



*** Looping through 5.2. Iter = 3212 


  iteration 3212; minNextMutationTime = 1993.34; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 325



*** Looping through 5.2. Iter = 3213 


  iteration 3213; minNextMutationTime = 1993.35; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 714



*** Looping through 5.2. Iter = 3214 


  iteration 3214; minNextMutationTime = 1993.35; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 240



*** Looping through 5.2. Iter = 3215 


  iteration 3215; minNextMutationTime = 1993.36; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 328



*** Looping through 5.2. Iter = 3216 


  iteration 3216; minNextMutationTime = 1993.37; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 241



*** Looping through 5.2. Iter = 3217 


  iteration 3217; minNextMutationTime = 1993.38; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 658



*** Looping through 5.2. Iter = 3218 


  iteration 3218; minNextMutationTime = 1993.39; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 192



*** Looping through 5.2. Iter = 3219 


  iteration 3219; minNextMutationTime = 1993.39; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 193



*** Looping through 5.2. Iter = 3220 


  iteration 3220; minNextMutationTime = 1993.4; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 244



*** Looping through 5.2. Iter = 3221 


  iteration 3221; minNextMutationTime = 1993.4; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 330



*** Looping through 5.2. Iter = 3222 


  iteration 3222; minNextMutationTime = 1993.41; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 658



*** Looping through 5.2. Iter = 3223 


  iteration 3223; minNextMutationTime = 1993.41; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 193



*** Looping through 5.2. Iter = 3224 


  iteration 3224; minNextMutationTime = 1993.43; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 191



*** Looping through 5.2. Iter = 3225 


  iteration 3225; minNextMutationTime = 1993.44; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 242



*** Looping through 5.2. Iter = 3226 


  iteration 3226; minNextMutationTime = 1993.45; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 657



*** Looping through 5.2. Iter = 3227 


  iteration 3227; minNextMutationTime = 1993.45; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 657



*** Looping through 5.2. Iter = 3228 


  iteration 3228; minNextMutationTime = 1993.47; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 659



*** Looping through 5.2. Iter = 3229 


  iteration 3229; minNextMutationTime = 1993.48; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 331



*** Looping through 5.2. Iter = 3230 


  iteration 3230; minNextMutationTime = 1993.5; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 335



*** Looping through 5.2. Iter = 3231 


  iteration 3231; minNextMutationTime = 1993.51; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 717



*** Looping through 5.2. Iter = 3232 


  iteration 3232; minNextMutationTime = 1993.51; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 336



*** Looping through 5.2. Iter = 3233 


  iteration 3233; minNextMutationTime = 1993.51; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 243



*** Looping through 5.2. Iter = 3234 


  iteration 3234; minNextMutationTime = 1993.52; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 190



*** Looping through 5.2. Iter = 3235 


  iteration 3235; minNextMutationTime = 1993.53; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 7081



*** Looping through 5.2. Iter = 3236 


  iteration 3236; minNextMutationTime = 1993.54; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 337



*** Looping through 5.2. Iter = 3237 


  iteration 3237; minNextMutationTime = 1993.54; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 339



*** Looping through 5.2. Iter = 3238 


  iteration 3238; minNextMutationTime = 1993.56; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 669



*** Looping through 5.2. Iter = 3239 


  iteration 3239; minNextMutationTime = 1993.58; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 677



*** Looping through 5.2. Iter = 3240 


  iteration 3240; minNextMutationTime = 1993.58; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 678



*** Looping through 5.2. Iter = 3241 


  iteration 3241; minNextMutationTime = 1993.58; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 7080



*** Looping through 5.2. Iter = 3242 


  iteration 3242; minNextMutationTime = 1993.59; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 7085



*** Looping through 5.2. Iter = 3243 


  iteration 3243; minNextMutationTime = 1993.59; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 245



*** Looping through 5.2. Iter = 3244 


  iteration 3244; minNextMutationTime = 1993.6; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 7085



*** Looping through 5.2. Iter = 3245 


  iteration 3245; minNextMutationTime = 1993.64; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 724



*** Looping through 5.2. Iter = 3246 


  iteration 3246; minNextMutationTime = 1993.65; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 191



*** Looping through 5.2. Iter = 3247 


  iteration 3247; minNextMutationTime = 1993.66; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 7090



*** Looping through 5.2. Iter = 3248 


  iteration 3248; minNextMutationTime = 1993.66; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 340



*** Looping through 5.2. Iter = 3249 


  iteration 3249; minNextMutationTime = 1993.67; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 341



*** Looping through 5.2. Iter = 3250 


  iteration 3250; minNextMutationTime = 1993.67; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 678



*** Looping through 5.2. Iter = 3251 


  iteration 3251; minNextMutationTime = 1993.68; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 243



*** Looping through 5.2. Iter = 3252 


  iteration 3252; minNextMutationTime = 1993.68; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 243



*** Looping through 5.2. Iter = 3253 


  iteration 3253; minNextMutationTime = 1993.69; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 192



*** Looping through 5.2. Iter = 3254 


  iteration 3254; minNextMutationTime = 1993.69; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 244



*** Looping through 5.2. Iter = 3255 


  iteration 3255; minNextMutationTime = 1993.73; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 245



*** Looping through 5.2. Iter = 3256 


  iteration 3256; minNextMutationTime = 1993.74; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 342



*** Looping through 5.2. Iter = 3257 


  iteration 3257; minNextMutationTime = 1993.77; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 715



*** Looping through 5.2. Iter = 3258 


  iteration 3258; minNextMutationTime = 1993.77; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 247



*** Looping through 5.2. Iter = 3259 


  iteration 3259; minNextMutationTime = 1993.78; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 678



*** Looping through 5.2. Iter = 3260 


  iteration 3260; minNextMutationTime = 1993.78; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 679



*** Looping through 5.2. Iter = 3261 


  iteration 3261; minNextMutationTime = 1993.8; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 348



*** Looping through 5.2. Iter = 3262 


  iteration 3262; minNextMutationTime = 1993.82; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 7152



*** Looping through 5.2. Iter = 3263 


  iteration 3263; minNextMutationTime = 1993.88; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 8 (Genotype = 0000000000000000000000000000000000000000000000000000000000100001; sp_id = 33)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 33)
 New popSize = 198



*** Looping through 5.2. Iter = 3264 


  iteration 3264; minNextMutationTime = 1993.89; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 351



*** Looping through 5.2. Iter = 3265 


  iteration 3265; minNextMutationTime = 1993.9; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 7168



*** Looping through 5.2. Iter = 3266 


  iteration 3266; minNextMutationTime = 1993.9; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 715



*** Looping through 5.2. Iter = 3267 


  iteration 3267; minNextMutationTime = 1993.91; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 717



*** Looping through 5.2. Iter = 3268 


  iteration 3268; minNextMutationTime = 1993.92; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 718



*** Looping through 5.2. Iter = 3269 


  iteration 3269; minNextMutationTime = 1993.93; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 722



*** Looping through 5.2. Iter = 3270 


  iteration 3270; minNextMutationTime = 1993.94; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 246



*** Looping through 5.2. Iter = 3271 


  iteration 3271; minNextMutationTime = 1993.96; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 7 (Genotype = 0000000000000000000000000000000000000000000000000000000001000001; sp_id = 65)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 65)
 New popSize = 251



*** Looping through 5.2. Iter = 3272 


  iteration 3272; minNextMutationTime = 1993.96; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 682



*** Looping through 5.2. Iter = 3273 


  iteration 3273; minNextMutationTime = 1993.97; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 4 (Genotype = 0000000000000000000000000000000000000000000000000000000000010001; sp_id = 17)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 17)
 New popSize = 725



*** Looping through 5.2. Iter = 3274 


  iteration 3274; minNextMutationTime = 1993.97; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 6 (Genotype = 0000000000000000000000000000000000000000000000000000000000001001; sp_id = 9)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 9)
 New popSize = 682



*** Looping through 5.2. Iter = 3275 


  iteration 3275; minNextMutationTime = 1993.97; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 3 (Genotype = 0000000000000000000000000000000000000000000000000000000000000101; sp_id = 5)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 5)
 New popSize = 7182



*** Looping through 5.2. Iter = 3276 


  iteration 3276; minNextMutationTime = 1993.98; timeNextPopSample = 1994; popParams.size() = 9

     Mutated to existing species 5 (Genotype = 0000000000000000000000000000000000000000000000000000000000000011; sp_id = 3)
 from species 1 (Genotypes = 0000000000000000000000000000000000000000000000000000000000000001; sp_id = 3)
 New popSize = 348



*** Looping through 5.2. Iter = 3277 


  iteration 3277; minNextMutationTime = 2004; timeNextPopSample = 1994; popParams.size() = 9

 We are SAMPLING. We reached finalTime 1994

 ... finished this run:
       Total Pop Size =  16051391
       Drivers Last =  2
       Final Time =  1994 

 Starting sample-only-last tests Thu Apr 12 02:06:59 2018 

   Seed =  7507   bozic bozic9 . Poset =  p1101 

   Seed =  7507   Exp Exp9 . Poset =  p1101 

   Seed =  7507   mc mc9 . Poset =  p1101 

   Seed =  3237   bozic bozic9 . Poset =  p901 

   Seed =  3237   Exp Exp9 . Poset =  p901 

   Seed =  3237   mc mc9 . Poset =  p901 

   Seed =  8272   bozic bozic9 . Poset =  p701 

   Seed =  8272   Exp Exp9 . Poset =  p701 

   Seed =  8272   mc mc9 . Poset =  p701 

 Ending sample-only-last tests Thu Apr 12 02:07:22 2018 

 Starting total-present-drivers tests Thu Apr 12 02:07:22 2018 

 Ending total-present-drivers tests Thu Apr 12 02:07:23 2018 

 Starting all fitness at Thu Apr 12 02:07:27 2018Genotype:  d1 , d2, f3
 Individual s terms are : 0.4
 Fitness:  1.4 
Genotype:  f3 , d1 , d2
 Individual s terms are : -0.3
 Fitness:  0.7 
Genotype:  f3 , d1 , d2
 Individual s terms are : -0.3
 Death rate:  1.3 

 DEBUG2: Value of rnb = nan

 DEBUG2: Value of m = 1

 DEBUG2: Value of pe = 0

 DEBUG2: Value of pm = 1

 this is spP

 popSize = 1
 birth = 1
 death = 0
 W = 1
 R = 1
 mutation = 1e-006
 timeLastUpdate = 814.982
 absfitness = -inf
 numMutablePos =1

 Unrecoverable exception: Algo 2: retval not finite. Aborting. 

 DEBUG2: Value of rnb = nan

 DEBUG2: Value of m = 1

 DEBUG2: Value of pe = 0

 DEBUG2: Value of pm = 0.999994

 this is spP

 popSize = 1
 birth = 1
 death = 0
 W = 1
 R = 1
 mutation = 4e-006
 timeLastUpdate = 116.111
 absfitness = -inf
 numMutablePos =4

 Unrecoverable exception: Algo 2: retval not finite. Aborting. 

 Ending all-fitness at Thu Apr 12 02:07:32 2018
 Starting driverCounts at Thu Apr 12 02:07:32 2018
 doing iteration 1 

 doing iteration 2 

 doing iteration 3 

 doing iteration 4 

 doing iteration 5 

 doing iteration 6 

 doing iteration 7 

 doing iteration 8 

 doing iteration 9 

 doing iteration 10 

 doing iteration 11 

 doing iteration 12 

 doing iteration 13 

 doing iteration 14 

 doing iteration 15 

 doing iteration 16 

 doing iteration 17 

 doing iteration 18 

 doing iteration 19 

 doing iteration 20 

 doing iteration 21 

 doing iteration 22 

 doing iteration 23 

 doing iteration 24 

 doing iteration 25 

 doing iteration 26 

 doing iteration 27 

 doing iteration 28 

 doing iteration 29 

 doing iteration 30 

 doing iteration 31 

 doing iteration 32 

 doing iteration 33 

 doing iteration 34 

 doing iteration 35 

 doing iteration 36 

 doing iteration 37 

 doing iteration 38 

 doing iteration 39 

 doing iteration 40 

 doing iteration 41 

 doing iteration 42 

 doing iteration 43 

 doing iteration 44 

 doing iteration 45 

 doing iteration 46 

 doing iteration 47 

 doing iteration 48 

 doing iteration 49 

 doing iteration 50 

 doing iteration 51 

 doing iteration 52 

 doing iteration 53 

 doing iteration 54 

 doing iteration 55 

 doing iteration 56 

 doing iteration 57 

 doing iteration 58 

 doing iteration 59 

 doing iteration 60 

 doing iteration 61 

 doing iteration 62 

 doing iteration 63 

 doing iteration 64 

 doing iteration 65 

 doing iteration 66 

 doing iteration 67 

 doing iteration 68 

 doing iteration 69 

 doing iteration 70 

 doing iteration 71 

 doing iteration 72 

 doing iteration 73 

 doing iteration 74 

 doing iteration 75 

 doing iteration 76 

 doing iteration 77 

 doing iteration 78 

 doing iteration 79 

 doing iteration 80 

 doing iteration 81 

 doing iteration 82 

 doing iteration 83 

 doing iteration 84 

 doing iteration 85 

 doing iteration 86 

 doing iteration 87 

 doing iteration 88 

 doing iteration 89 

 doing iteration 90 

 doing iteration 91 

 doing iteration 92 

 doing iteration 93 

 doing iteration 94 

 doing iteration 95 

 doing iteration 96 

 doing iteration 97 

 doing iteration 98 

 doing iteration 99 

 doing iteration 100 

 Ending driverCounts at Thu Apr 12 02:07:40 2018 

 Starting epist-order-modules at Thu Apr 12 02:07:40 2018
 Ending epist-order-modules at Thu Apr 12 02:07:40 2018
 Starting exercise-plotting-code at Thu Apr 12 02:07:40 2018
 Ending exercise-plotting-code at Thu Apr 12 02:08:00 2018
 Starting fitness preds at Thu Apr 12 02:08:01 2018 

 Observed vs expected, case III

 done tries 1 

 Ending fitness preds long at Thu Apr 12 02:08:21 2018 

 Starting fixation  at Thu Apr 12 02:08:21 2018 

 Ending fixation  at Thu Apr 12 02:09:01 2018 

 Starting init-mutant tests Thu Apr 12 02:09:02 2018 

 done tries 1 

 done tries 1 

 done tries 1 

 Ending init-mutant tests Thu Apr 12 02:09:05 2018 

 Starting at mutPropGrowth  Thu Apr 12 02:09:05 2018 

 Thu Apr 12 02:09:05 2018 

 mcf1: a runif is 0.3245147 

 mcf1a: a runif is 0.8574736 

 mcf1c: a runif is 0.1776273 

 done tries 1 

 Thu Apr 12 02:09:07 2018 

 mcf1_ontime: a runif is 0.6505758 

 mcf1a: a runif is 0.6100115 

 mcf1c: a runif is 0.9024547 

 done tries 1 

 Thu Apr 12 02:09:09 2018 

 oss1: a runif is 0.6582667 

 oss1a: a runif is 0.8423799 

 oss1c: a runif is 0.02067511 

 done tries 1 

 oss1_ontime: a runif is 0.2605726 

 oss1a: a runif is 0.3465951 

 oss1c: a runif is 0.5480784 

 done tries 1 

 ossmcf1: a runif is 0.4330307 

 ossmcf1a: a runif is 0.1595776 

 ossmcf1c: a runif is 0.3360007 

 done tries 1 

 ossmcf1: a runif is 0.3453431 

 ossmcf1a: a runif is 0.0617833 

 ossmcf1c: a runif is 0.2712802 

 done tries 1 

 DEBUG2: Value of spP.death = 1

 DEBUG2: Value of spP.birth = 0

 DEBUG2: Value of pM = 1

 DEBUG2: Value of spP.W = 1

 DEBUG2: Value of spP.mutation = 0

 Unrecoverable exception: pE.f: pE not finite.
      This is expected to happen when mutationPropGrowth = TRUE 
      and you have have an initMutant with death >> birth,
      as that inevitably leads to net birth rate of 0
      and mutation rate of 0. Aborting. 

 Ended test.mutPropGrowth:  Thu Apr 12 02:09:19 2018 

 Starting test.mutator-oncoSimulSample.R test at Thu Apr 12 02:09:19 2018 

 MCFL: AEu8: a runif is 0.06492792 
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.

 done tries 1 

 mcx2bc: a runif is 0.1173798 

 done tries 1 

 x2ef: a runif is 0.4948047 

 done tries 1 

 x2gh: a runif is 0.7108779 

 done tries 1 

 nm2: a runif is 0.1084986 

 done tries 1 

 mcz2: a runif is 0.4546668 

 done tries 1 

 Finished test.mutator-oncoSimulSample.R test at Thu Apr 12 02:09:27 2018 

 Starting test.mutator.R test at Thu Apr 12 02:09:27 2018
 Individual s terms are :

 x2gh: a runif is 0.979696 

 done tries 1 

 u6: a runif is 0.4621331 

 done tries 1 

 mcfu6: a runif is 0.9581044 

 done tries 1 

 nm2: a runif is 0.2002514 

 done tries 1 

 nm3: a runif is 0.6581228 

 done tries 1 

 mcfl_z2: a runif is 0.4493111 

 done tries 1 

 mmdSM1: a runif is 0.8336122 
[1] 1.058564e-07
[1] 2.443841e-11

 done tries  1 

 mmpg_mcfl: a runif is 0.2327392 

 done tries 1 

 Finished test.mutator.R test at Thu Apr 12 02:09:50 2018 

 Starting oncoSimulIndiv-miscell tests Thu Apr 12 02:09:50 2018 
......  Done individual  1 . Used  1 attempts. . Running for  0  secs.
......  Done individual  2 . Used  2 attempts. . Running for  0.01562595  secs.
......  Done individual  1 . Used  1 attempts. . Running for  0  secs.
......  Done individual  2 . Used  2 attempts. . Running for  0  secs.

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Ending oncoSimulIndiv-miscell tests Thu Apr 12 02:09:58 2018 

 Starting oncoSimulSample-failures tests Thu Apr 12 02:09:58 2018 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted wall time. Exiting.
 Hitting wall time is regarded as an error. 
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 0. There can be numerical problems later.

 Entered Algo2 with mutation rate = 0

 Unrecoverable exception: mutation = 0 with numMutable != 0?. Aborting. 

 Ending oncoSimulSample-failures tests Thu Apr 12 02:10:03 2018 

 Starting oncoSimulSample-limits tests Thu Apr 12 02:10:03 2018 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Hitted maxtries. Exiting.
 Hitting max tries is regarded as an error. 

 Ending oncoSimulSample-limits tests Thu Apr 12 02:10:03 2018 

 Starting per-gene-mutation rates at Thu Apr 12 02:10:03 2018 

 s01: a runif is 0.09192756 

 s02: a runif is 0.6573694 

 s03: a runif is 0.97124 

 s04: a runif is 0.4018537 

 s05: a runif is 0.56669 

 s06: a runif is 0.7661351 

 s07: a runif is 0.7912969 

 s15: a runif is 0.0928565 

 sz01: a runif is 0.1350179 

 sz02: a runif is 0.4640686 

 sz03: a runif is 0.6827395 

 sz04: a runif is 0.8997279 

 sz05: a runif is 0.3362377 

 sz06: a runif is 0.3981817 

 s3: a runif is 0.02650807 

 done tries 1 

 s4: a runif is 0.2343754 

 done tries 1 

 s5: a runif is 0.8185317 

 done tries 1 

 s6: a runif is 0.6139074 

 done tries 1 

 s7: a runif is 0.3866327 

 done tries 1 

 s8: a runif is 0.9600899 

 done tries 1 

 s9: a runif is 0.1574726 

 done tries 1 

 s10: a runif is 0.5295858 

 s12: a runif is 0.1282928 

 s12b: a runif is 0.4483251 
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.

 done tries 1 

 s14: a runif is 0.07249589 
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.

 s14b: a runif is 0.2480475 
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.

 done tries 1 

 s18: a runif is 0.9687754 

 done tries 1 

 mcs19: a runif is 0.3620632 
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-011. There can be numerical problems later.

 done tries 1 

 s20: a runif is 0.1151997 

 s20b: a runif is 0.1610769 

 s20c: a runif is 0.2120778 

 done tries 1 

 df1: a runif is 0.2288125 

 df1a: a runif is 0.6542979 

 df1b: a runif is 0.8429222 

 done tries 1 

 mcdf2: a runif is 0.8736279 

 mcdf2a: a runif is 0.8847555 

 mcdf2b: a runif is 0.8982532 

 done tries 1 

 mpgs3: a runif is 0.9650426 

 mpgs3a: a runif is 0.6806066 

 mpgs3b: a runif is 0.1363234 

 done tries 1 

 mcoss11: a runif is 0.983165 

 mcoss1a: a runif is 0.6442497 

 mcoss1b: a runif is 0.5671903 

 done tries 1 

 mcoss2: a runif is 0.007715885 

 mcoss2a: a runif is 0.3850013 

 mcoss2b: a runif is 0.7508702 

 done tries 1 

 mpg s14: a runif is 0.6077699 
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.

 mpg s14b: a runif is 0.4621768 
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.
WARNING: the smallest mutation rate is <= 1e-011. That is a really small value(per-base mutation rate in the human genome is ˜ 1e-11 to 1e-9). Setting dummyMutationRate to your min/100 = 1e-015. There can be numerical problems later.

 done tries 1 

 mpg mcdf2: a runif is 0.1199993 

 mpg mcdf2a: a runif is 0.3467888 

 mpg mcdf2b: a runif is 0.3131749 

 done tries 1 

 mcsz033: a runif is 0.6720997 

 mcsz033a: a runif is 0.2646815 

 mcsz033b: a runif is 0.5291708 
[1] 1.474968
[1] 1.886829
[1] 9
[1] 12

 T1 is TRUE
 T2 is TRUE
 done tries 1 

 osSFPSMcFL: a runif is 0.9663936 

 osSFPSMcFLa: a runif is 0.5438421 

 osSFPSMcFLb: a runif is 0.7211939 

 done tries 1 

 Done per-gene-mutation rates at Thu Apr 12 02:12:10 2018 

 Starting poset-transformations tests Thu Apr 12 02:12:13 2018 

 Ending poset-transformations tests Thu Apr 12 02:12:17 2018 

 Starting sample-prob Thu Apr 12 02:12:17 2018 
[1] 2.098584e-29

 done tries 1 
[1] 7.069599e-14

 done tries 1 
[1] 2.094878e-14

 done tries 1 
[1] 4.790326e-16

 done tries 1 
[1] 5.328373e-25

 done tries 1 
[1] 9.848393e-07

 done tries 1 
[1] 1.617956e-13

 done tries 1 
[1] 3.075913e-08

 done tries 1 
[1] 5.015389e-30

 done tries 1 
[1] 1.956266e-09

 done tries 1 
[1] 3.074352e-07

 done tries 1 
[1] 2.471483e-21

 done tries 1 

 Ending sample-prob tests Thu Apr 12 02:12:55 2018 

 Starting samplePop tests Thu Apr 12 02:12:55 2018 

 Ending samplePop tests Thu Apr 12 02:13:18 2018 

 Starting simuls-runs-examples tests Thu Apr 12 02:13:18 2018 

 Doing i =  1  name =  cbn2 

 Doing i =  2  name =  svB 

 Doing i =  3  name =  ofe1 

 Doing i =  4  name =  em 

 Doing i =  5  name =  E3A 

 Doing i =  1  name =  cbn2 

 Doing i =  2  name =  svB 

 Doing i =  3  name =  ofe1 

 Doing i =  4  name =  em 

 Doing i =  5  name =  E3A 

 Doing i =  1  name =  cbn2 

 Doing i =  1  name =  cbn2 

 Doing i =  2  name =  svB 

 Doing i =  2  name =  svB 

 Doing i =  3  name =  ofe1 

 Doing i =  3  name =  ofe1 

 Doing i =  4  name =  em 

 Doing i =  4  name =  em 

 Doing i =  5  name =  E3A 

 Doing i =  5  name =  E3A 

 Doing i =  1  name =  cbn2 

 Doing i =  2  name =  svB 

 Doing i =  3  name =  ofe1 

 Doing i =  4  name =  em 

 Doing i =  5  name =  E3A 

 Ending simuls-runs-examples tests Thu Apr 12 02:13:31 2018 

 Starting warning-mutPropGrowth tests Thu Apr 12 02:13:31 2018 

 a runif is 0.9546955 

 Ending warning-mutPropGrowth tests Thu Apr 12 02:13:34 2018 

 Starting wide2long tests Thu Apr 12 02:13:34 2018 

 Ending wide2long tests Thu Apr 12 02:13:35 2018 
== testthat results  ===========================================================
OK: 3006 SKIPPED: 8 FAILED: 0
> 
> proc.time()
   user  system elapsed 
 410.06    1.50  411.73 

Example timings

OncoSimulR.Rcheck/examples_i386/OncoSimulR-Ex.timings

nameusersystemelapsed
OncoSimulWide2Long0.700.010.72
POM3.670.003.67
allFitnessEffects2.950.002.96
benchmarks0.020.000.01
evalAllGenotypes0.170.020.19
example-missing-drivers0.720.000.72
examplePosets0.360.000.36
examplesFitnessEffects0.060.000.06
mcfLs5.440.165.59
oncoSimulIndiv12.53 0.1712.71
plot.fitnessEffects0.690.030.72
plot.oncosimul3.040.153.20
plotClonePhylog1.020.041.05
plotFitnessLandscape1.160.001.15
plotPoset0.070.030.11
poset0.150.000.14
rfitness0.340.000.35
samplePop0.570.030.59
simOGraph0.160.000.16
to_Magellan0.020.000.02

OncoSimulR.Rcheck/examples_x64/OncoSimulR-Ex.timings

nameusersystemelapsed
OncoSimulWide2Long0.690.010.70
POM4.780.004.88
allFitnessEffects4.430.024.44
benchmarks000
evalAllGenotypes0.260.000.27
example-missing-drivers0.940.000.93
examplePosets0.480.020.50
examplesFitnessEffects0.070.000.07
mcfLs4.570.234.81
oncoSimulIndiv9.300.059.34
plot.fitnessEffects1.130.001.13
plot.oncosimul4.010.044.06
plotClonePhylog1.490.051.53
plotFitnessLandscape2.070.022.09
plotPoset0.160.010.18
poset0.240.000.23
rfitness0.640.000.64
samplePop0.610.020.62
simOGraph0.220.010.24
to_Magellan0.020.020.03