Probability of Identity by Descent in Metapopulations

Corresponding author: Martin Lascoux, Department of Genetics, Box 7003, S-750 07 Uppsala, Sweden., martin.lascoux{at}genetik.uu.se (E-mail)

Communicating editor: W. STEPHAN

Equilibrium probabilities of identity by descent (IBD), for pairs of genes within individuals, for genes between individuals within subpopulations, and for genes between subpopulations are calculated in metapopulation models with fixed or varying colony sizes. A continuous-time analog to the Moran model was used in either case. For fixed-colony size both propagule and migrant pool models were considered. The varying population size model is based on a birth-death-immigration (BDI) process, to which migration between colonies is added. Wright's F statistics are calculated and compared to previous results. Adding between-island migration to the BDI model can have an important effect on the equilibrium probabilities of IBD and on Wright's index.

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