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Stochastic viability in an island model with partial dispersal: Approximation by a diffusion process in the limit of a large number of islands

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  • Kroumi, Dhaker
  • Lessard, Sabin

Abstract

In this paper, we investigate a finite population undergoing evolution through an island model with partial dispersal and without mutation, where generations are discrete and non-overlapping. The population is structured into D demes, each containing N individuals of two possible types, A and B, whose viability coefficients, sA and sB, respectively, vary randomly from one generation to the next. We assume that the means, variances and covariance of the viability coefficients are inversely proportional to the number of demes D, while higher-order moments are negligible in comparison to 1/D. We use a discrete-time Markov chain with two timescales to model the evolutionary process, and we demonstrate that as the number of demes D approaches infinity, the accelerated Markov chain converges to a diffusion process for any deme size N≥2. This diffusion process allows us to evaluate the fixation probability of type A following its introduction as a single mutant in a population that was fixed for type B. We explore the impact of increasing the variability in the viability coefficients on this fixation probability. At least when N is large enough, it is shown that increasing this variability for type B or decreasing it for type A leads to an increase in the fixation probability of a single A. The effect of the population-scaled variances, σA2 and σB2, can even cancel the effects of the population-scaled means, μA and μB. We also show that the fixation probability of a single A increases as the deme-scaled migration rate increases. Moreover, this probability is higher for type A than for type B if the population-scaled geometric mean viability coefficient is higher for type A than for type B, which means that μA−σA2/2>μB−σB2/2.

Suggested Citation

  • Kroumi, Dhaker & Lessard, Sabin, 2024. "Stochastic viability in an island model with partial dispersal: Approximation by a diffusion process in the limit of a large number of islands," Theoretical Population Biology, Elsevier, vol. 158(C), pages 170-184.
    • Handle: RePEc:eee:thpobi:v:158:y:2024:i:c:p:170-184
    DOI: 10.1016/j.tpb.2024.06.003
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    References listed on IDEAS

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    1. Li, Cong & Lessard, Sabin, 2020. "Randomized matrix games in a finite population: Effect of stochastic fluctuations in the payoffs on the evolution of cooperation," Theoretical Population Biology, Elsevier, vol. 134(C), pages 77-91.
    2. Sabin Lessard, 2011. "Effective Game Matrix and Inclusive Payoff in Group-Structured Populations," Dynamic Games and Applications, Springer, vol. 1(2), pages 301-318, June.
    3. Dhaker Kroumi & Éloi Martin & Cong Li & Sabin Lessard, 2021. "Effect of Variability in Payoffs on Conditions for the Evolution of Cooperation in a Small Population," Dynamic Games and Applications, Springer, vol. 11(4), pages 803-834, December.
    4. Kroumi, Dhaker & Martin, Éloi & Lessard, Sabin, 2022. "Evolution of cooperation with respect to fixation probabilities in multi-player games with random payoffs," Theoretical Population Biology, Elsevier, vol. 145(C), pages 1-21.
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