Interaction rates, vital rates, background fitness and replicator dynamics: how to embed evolutionary game structure into realistic population dynamics
Argasinski, K. & Broom, M. ORCID: 0000-0002-1698-5495 (2018). Interaction rates, vital rates, background fitness and replicator dynamics: how to embed evolutionary game structure into realistic population dynamics. Theory in Biosciences - Theorie in den Biowissenschaften, 137(1), pp. 33-50. doi: 10.1007/s12064-017-0257-y
Abstract
In this paper we are concerned with how aggregated outcomes of individual behaviours, during interactions with other individuals (games) or with environmental factors, determine the vital rates constituting the growth rate of the population. This approach needs additional elements, namely the rates of event occurrence (interaction rates). Interaction rates describe the distribution of the interaction events in time, which seriously affects the population dynamics, as is shown in this paper. This leads to the model of a population of individuals playing different games, where focal game affected by the considered trait can be extracted from the general model, and the impact on the dynamics of other events (which is not neutral) can be described by an average background fertility and mortality. This leads to a distinction between two types of background fitness, strategically neutral elements of the focal games (correlated with the focal game events) and the aggregated outcomes of other interactions (independent of the focal game). The new approach is useful for clarification of the biological meaning of concepts such as weak selection. Results are illustrated by a Hawk–Dove example.
Publication Type: | Article |
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Publisher Keywords: | Replicator dynamics, Evolutionary game, Density dependence, Interaction rate, Eco evolutionary feedback, Background fitness |
Departments: | School of Science & Technology > Mathematics |
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Available under License Creative Commons Attribution.
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