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Genetic structuring in fluctuating populations
Authors:Veijo Kaitala   Esa Ranta  Nils Chr. Stenseth
Affiliation:

aIntegrative Ecology Unit, University of Helsinki, Finland

bCentre of Ecological and Evolutionary Synthesis (CEES), University of Oslo, Norway

Abstract:The effect of genetic drift in spatially distributed dispersal-linked and density-regulated populations is studied in a classical one-locus two-allele system. We analyse emergence of genetic differentiation assuming random drift only, where the noise-like variability is due to demographic stochasticity. We find emergence of clusters of sub-units with local allele fixation and persistence of both alleles in lengthy simulations. We demonstrate that local allele fixation (extending over a number of adjoining spatial sub-units) – without global loss of alleles – may occur when the carrying capacities of local patches are small, under a full range population dynamic regimes, when dispersal rate is small, and when redistribution (through dispersal) does not act as global mixer. These results are novel. The key to the observations is that drift is simultaneously influenced by distance-dependent dispersal, demographic stochasticity and autocorrelated population fluctuations due to delayed-density dependence. These are standard elements of contemporary population models in spatially structured context. With stable large populations, no stochasticity and dispersal limited to neighbours only, our model collapses to the stepping-stone model, while with dispersal being random and global, the model collapses to Wright's island model.
Keywords:Population genetics   Spatial population dynamics   Random genetic drift   Allele fixation   Genetic structuring
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