Genetic variation for individual traits is typically abundant, but for some multivariate combinations it is very low, suggesting that evolutionary limits might be generated by the geometric distribution of genetic variance. To test this prediction, we artificially selected along all eight genetic eigenvectors of a set of eight quantitative traits in Drosophila serrata. After six generations of 50% truncation selection, at least one replicate population of all treatments responded to selection, allowing us to reject a null genetic subspace as a cause of evolutionary constraint in this system. However, while all three replicate populations of the first five selection treatments displayed a significant response, the remaining three, characteri...
A fundamental question in evolutionary biology is the relative importance of selection and genetic a...
Theoretical explanations of empirically observed standing genetic variation, mutation, and selection...
Genetic correlations are the most commonly studied of all potential constraints on adaptive evolutio...
Genetic variation for individual traits is typically abundant, but for some multivariate combination...
Stabilizing selection is important in evolutionary theories of the maintenance of genetic variance, ...
Evolutionary constraint results from the interaction between the distribution of available genetic v...
Directional selection is prevalent in nature yet phenotypes tend to remain relatively constant, sugg...
Evolutionary biology has struggled to explain the coexistence of two basic observations: Genetic var...
The interaction of evolutionary processes to determine quantitative genetic variation has implicatio...
Although adaptive change is usually associated with complex changes in phenotype, few genetic invest...
Phenotypes tend to remain relatively constant in natural populations, suggesting a limit to trait ev...
Directional selection is prevalent in nature, yet phenotypes tend to remain relatively constant, sug...
Directional selection is prevalent in nature yet phenotypes tend to remain relatively constant, sugg...
An absence of genetic variance in traits under selection is perhaps the oldest explanation for a lim...
The multivariate evolution of populations is the result of the interactions between natural selectio...
A fundamental question in evolutionary biology is the relative importance of selection and genetic a...
Theoretical explanations of empirically observed standing genetic variation, mutation, and selection...
Genetic correlations are the most commonly studied of all potential constraints on adaptive evolutio...
Genetic variation for individual traits is typically abundant, but for some multivariate combination...
Stabilizing selection is important in evolutionary theories of the maintenance of genetic variance, ...
Evolutionary constraint results from the interaction between the distribution of available genetic v...
Directional selection is prevalent in nature yet phenotypes tend to remain relatively constant, sugg...
Evolutionary biology has struggled to explain the coexistence of two basic observations: Genetic var...
The interaction of evolutionary processes to determine quantitative genetic variation has implicatio...
Although adaptive change is usually associated with complex changes in phenotype, few genetic invest...
Phenotypes tend to remain relatively constant in natural populations, suggesting a limit to trait ev...
Directional selection is prevalent in nature, yet phenotypes tend to remain relatively constant, sug...
Directional selection is prevalent in nature yet phenotypes tend to remain relatively constant, sugg...
An absence of genetic variance in traits under selection is perhaps the oldest explanation for a lim...
The multivariate evolution of populations is the result of the interactions between natural selectio...
A fundamental question in evolutionary biology is the relative importance of selection and genetic a...
Theoretical explanations of empirically observed standing genetic variation, mutation, and selection...
Genetic correlations are the most commonly studied of all potential constraints on adaptive evolutio...