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The effect of phenotypic variation on metapopulation persistence
Author(s) -
Gibert Jean P.
Publication year - 2016
Publication title -
population ecology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.819
H-Index - 59
eISSN - 1438-390X
pISSN - 1438-3896
DOI - 10.1007/s10144-016-0548-z
Subject(s) - metapopulation , biology , persistence (discontinuity) , extinction (optical mineralogy) , colonization , evolutionary biology , trait , population , ecology , variation (astronomy) , biological dispersal , demography , geotechnical engineering , paleontology , physics , sociology , computer science , astrophysics , engineering , programming language
Abstract Demographic stochasticity (due to the probabilistic nature of the birth–death process) and demographic heterogeneity (between‐individual differences in demographic parameters) have long been seen as factors affecting extinction risk. While demographic stochasticity can be independent of underlying species traits, demographic heterogeneity may strongly depend on phenotypic variation. However, how phenotypic variation can affect extinction risk is largely unknown. Here, I develop a stochastic metapopulation model that takes into account the effects of demographic stochasticity and phenotypic variation in the traits controlling colonization rates to assess what the effect of phenotypic variation may be on the persistence of the metapopulation. Although phenotypic variation can lead to a decrease in metapopulation persistence under some conditions, it also may lead to an increase in persistence whenever phenotypic mismatch—or the distance between the optimal trait value and the population mean—is large. This mismatch can in turn arise from a variety of ecological and evolutionary reasons, including weak selection or a recent history of invasion. Last, the effect of phenotypic variation has a deterministic component on colonization rates, and a stochastic component on persistence through colonization rates, but both are important to understand the overall effect. These results have important implications for the conservation of threatened species and management practices that may historically have overlooked phenotypic variation as unimportant noise around mean values of interest.