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Metacommunities, fitness and gradual evolution.

Authors :
Priklopil, Tadeas
Lehmann, Laurent
Source :
Theoretical Population Biology. Dec2021, Vol. 142, p12-35. 24p.
Publication Year :
2021

Abstract

We analyze the evolution of a multidimensional quantitative trait in a class-structured focal species interacting with other species in a wider metacommunity. The evolutionary dynamics in the focal species as well as the ecological dynamics of the whole metacommunity is described as a continuous-time process with birth, physiological development, dispersal, and death given as rates that can depend on the state of the whole metacommunity. This can accommodate complex local community and global metacommunity environmental feedbacks owing to inter- and intra-specific interactions, as well as local environmental stochastic fluctuations. For the focal species, we derive a fitness measure for a mutant allele affecting class-specific trait expression. Using classical results from geometric singular perturbation theory, we provide a detailed proof that if the effect of the mutation on phenotypic expression is small ("weak selection"), the large system of dynamical equations needed to describe selection on the mutant allele in the metacommunity can be reduced to a single ordinary differential equation on the arithmetic mean mutant allele frequency that is of constant sign. This invariance on allele frequency entails the mutant either dies out or will out-compete the ancestral resident (or wild) type. Moreover, the directional selection coefficient driving arithmetic mean allele frequency can be expressed as an inclusive fitness effect calculated from the resident metacommunity alone, and depends, as expected, on individual fitness differentials, relatedness, and reproductive values. This formalizes the Darwinian process of gradual evolution driven by random mutation and natural selection in spatially and physiologically class-structured metacommunities. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00405809
Volume :
142
Database :
Academic Search Index
Journal :
Theoretical Population Biology
Publication Type :
Academic Journal
Accession number :
153823566
Full Text :
https://doi.org/10.1016/j.tpb.2021.09.002