Bounds for survival probabilities in supercritical Galton-Watson processes and applications to population genetics

Abstract

Population genetic processes, such as the adaptation of a quantitative trait to directional selection, may occur on longer time scales than the sweep of a single advantageous mutation. To study such processes in finite populations, approximations for the time course of the distribution of a beneficial mutation were derived previously by branching process methods. The application to the evolution of a quantitative trait requires bounds for the probability of survival S(n) up to generation n of a single beneficial mutation. Here, we present a method to obtain a simple, analytically explicit, either upper or lower, bound for S(n) in a supercritical Galton-Watson process. We prove the existence of an upper bound for offspring distributions including Poisson, binomial, and negative binomial. They are constructed by bounding the given generating function, , by a fractional linear one that has the same survival probability S∞ and yields the same rate of convergence of S(n) to S∞ as . For distributions with at most three offspring, we characterize when this method yields an upper bound, a lower bound, or only an approximation. Because for many distributions it is difficult to get a handle on S∞, we derive an approximation by series expansion in s, where s is the selective advantage of the mutant. We briefly review well-known asymptotic results that generalize Haldane's approximation 2s for S∞, as well as less well-known results on sharp bounds for S∞. We apply them to explore when bounds for S(n) exist for a family of generalized Poisson distributions. Numerical results demonstrate the accuracy of our and of previously derived bounds for S∞ and S(n). Finally, as an application we determine the response of a quantitative trait caused by new beneficial mutations to prolonged directional selection.

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