%0 DATA
%A Bruce, R. Levin
%A Omar, E. Cornejo
%D 2013
%T Competition between populations with different rates of recombination.
%U https://plos.figshare.com/articles/_Competition_between_populations_with_different_rates_of_recombination_/558003
%R 10.1371/journal.pgen.1000601.g008
%2 https://plos.figshare.com/ndownloader/files/887540
%K populations
%K rates
%X In (A), (B) and (C) we plot the changes in the ratio of the higher rate recombining population #1, relative to the lower rate recombining population, #2, 1∶2. Runs initiated with 10 randomly chosen clones with identical starting populations for the 1 and 2 populations. In all runs the runs depicted the total population size *N*_{T} = 2×10^{8}, μ = 10^{−8}, *χ*_{1} = 5×10^{15}, *χ*_{2} = 0, c = 0.50, e = 1.0. (A) Initially equal densities of 1 and 2 and no fitness cost associated with recombination. (B) Initial equal frequencies of #1 and #2M and a 1% fitness cost for the recombining population 1. (C) The recombining population is initially rare and there is no fitness cost associated with recombination. (D) Ratio of non-recombining to recombining 2∶1, the non-recombining population is initially rare and there is a 2% fitness cost for the recombining population.