Don't fall off the adaptation cliff: when asymmetrical fitness selects for suboptimal traits.
2012
Vercken , Elodie (INRA , Biot (France). UMR 1355 Institut Sophia Agrobiotech ) | Wellenreuther , Maren (Lund University, Lund (Suède). Department of Animal Ecology - Ecology Building SE-22362 Lund SE) | Svensson , Erik I (Lund University, Lund (Suède). Department of Biology - Lund SE) | Mauroy , Benjamin (Centre National de la Recherche Scientifique, Nice (France). JAD Laboratoire Jean Alexandre Dieudonné - Université de Nice - Sophia Antipolis U.M.R. no 6621 du C.N.R.S. Parc Valrose 06108 Nice Cedex 02 France FR)
The cliff-edge hypothesis introduces the counterintuitive idea that the trait value associated with the maximum of an asymmetrical fitness function is not necessarily the value that is selected for if the trait shows variability in its phenotypic expression. We develop a model of population dynamics to show that, in such a system, the evolutionary stable strategy depends on both the shape of the fitness function around its maximum and the amount of phenotypic variance. The model provides quantitative predictions of the expected trait value distribution and provides an alternative quantity that should be maximized ("genotype fitness") instead of the classical fitness function ("phenotype fitness"). We test the model's predictions on three examples: (1) litter size in guinea pigs, (2) sexual selection in damselflies, and (3) the geometry of the human lung. In all three cases, the model's predictions give a closer match to empirical data than traditional optimization theory models. Our model can be extended to most ecological situations, and the evolutionary conditions for its application are expected to be common in nature.
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