Stabilizing selection is important in evolutionary theories of the maintenance of genetic variance, and has been invoked as the key process determining macro-evolutionary patterns of trait evolution. However, manipulative evidence for the extent of stabilizing selection, particularly on multivariate trait combinations is lacking. We used artificial disruptive selection in Drosophila serrata as a tool to determine the relative strength of stabilizing selection experienced by multivariate trait combinations with contrasting levels of genetic and mutational variance. Contrary to expectation, when disruptive selection was applied to the major axis of standing genetic variance, we observed a significant and repeatable decrease in its phenotypic ...
Theoretical explanations of empirically observed standing genetic variation, mutation, and selection...
The genetic architecture of adaptive traits is of key importance to predict evolutionary responses. ...
Directional selection is prevalent in nature yet phenotypes tend to remain relatively constant, sugg...
Stabilizing selection is important in evolutionary theories of the maintenance of genetic variance, ...
Directional selection is prevalent in nature yet phenotypes tend to remain relatively constant, sugg...
Genetic variation for individual traits is typically abundant, but for some multivariate combination...
Despite decades of research, the factors that maintain genetic variation for fitness are poorly unde...
International audienceThe assumption that pleiotropic mutations are more deleterious than mutations ...
Phenotypes tend to remain relatively constant in natural populations, suggesting a limit to trait ev...
The assumption that pleiotropic mutations are more deleterious than mutations with more restricted p...
Directional selection is prevalent in nature, yet phenotypes tend to remain relatively constant, sug...
Despite decades of research, the factors that maintain genetic variation for fitness are poorly unde...
Theoretical explanations of empirically observed standing genetic variation, mutation, and selection...
The genetic architecture of adaptive traits is of key importance to predict evolutionary responses. ...
Directional selection is prevalent in nature yet phenotypes tend to remain relatively constant, sugg...
Stabilizing selection is important in evolutionary theories of the maintenance of genetic variance, ...
Directional selection is prevalent in nature yet phenotypes tend to remain relatively constant, sugg...
Genetic variation for individual traits is typically abundant, but for some multivariate combination...
Despite decades of research, the factors that maintain genetic variation for fitness are poorly unde...
International audienceThe assumption that pleiotropic mutations are more deleterious than mutations ...
Phenotypes tend to remain relatively constant in natural populations, suggesting a limit to trait ev...
The assumption that pleiotropic mutations are more deleterious than mutations with more restricted p...
Directional selection is prevalent in nature, yet phenotypes tend to remain relatively constant, sug...
Despite decades of research, the factors that maintain genetic variation for fitness are poorly unde...
Theoretical explanations of empirically observed standing genetic variation, mutation, and selection...
The genetic architecture of adaptive traits is of key importance to predict evolutionary responses. ...
Directional selection is prevalent in nature yet phenotypes tend to remain relatively constant, sugg...