Lifeâ€history evolution is determined by the interplay between natural selection and adaptive constraints. The classical approach to studying constrained lifeâ€history evolution—Richard Levin’s geometric comparison of fitness sets and adaptive functions—is applicable when selection pressures are frequency independent. Here we extend this widely used tool to frequencyâ€dependent selection. Such selection pressures vary with a population’s phenotypic composition and are increasingly recognized as ubiquitous. Under frequency dependence, two independent properties have to be distinguished: evolutionary stability (an evolutionarily stable strategy cannot be invaded once established) and convergence stability (only a convergence stable strategy can be attained through small, selectively advantageous steps). Combination of both properties results in four classes of possible evolutionary outcomes. We introduce a geometric mode of analysis that enables predicting, for any bivariate selection problem, evolutionary outcomes induced by tradeâ€offs of given shape, shapes of tradeâ€offs required for given evolutionary outcomes, the set of all evolutionary outcomes tradeâ€offs can induce, and effects of ecological parameters on evolutionary outcomes independent of tradeâ€off shape.
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