Partitioning the relative fitness effects of diet and trophic morphology in the threespine stickleback
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Data
2011-07-01
Autores
Bolnick, Daniel I.
Araújo, Márcio S. [UNESP]
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Background: Numerous models show that if morphology and diet are correlated, frequencydependent competition will lead to fitness differences among phenotypically dissimilar individuals within a species. Hypothesis: Selection acts primarily on diet, and only indirectly on morphology via its correlation with diet. Field sites and organism: British Columbia, Canada; 340 individual threespine stickleback (Gasterosteus aculeatus) from McNair Lake and 430 individuals from First Lake. Measurements: Stable isotopes (δ 13C and δ 15N; a proxy for diet); trophic morphology (quantitative traits and geometric shape variables); and growth rates (RNA/DNA ratios; a proxy for the component of fitness arising from competitive or foraging ability). Analysis: Linear and quadratic regression of growth rate on stable isotopes and morphological variables to calculate the relationship between growth (a fitness proxy) and diet and/or morphology. When both morphology and isotopes affected growth rates, we used a path analysis to separate their effects. Conclusions: In the McNair Lake population, growth was dependent primarily on diet type and only indirectly on trophic morphology. In a second population, path analysis found that isotopes and body shape separately explain variation in growth rates. We infer that, in stickleback, selection on trophic morphology is often a correlated side-effect of selection on diet composition, rather than direct fitness effects of morphology per se. © 2011.
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Directional selection, Fitness landscape, Frequency-dependent selection, Function-valued trait, Gasterosteus aculeatus, Stabilizing selection, Stable isotopes, Trophic morphology
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Evolutionary Ecology Research, v. 13, n. 5, p. 439-459, 2011.