Environmental heterogeneity is considered a general explanation for phenotypic diversification, particularly when heterogeneity causes populations to diverge via local adaptation. Performance trade-offs, such as those stemming from antagonistic pleiotropy, are thought to contribute to the maintenance of diversity in this scenario. Specifically, alleles that promote adaptation in one environment are expected to promote maladaptation in alternative environments. Contrary to this expectation, however, alleles that underlie locally adaptive traits often fail to exhibit fitness costs in alternative environments. Here, we attempt to explain this paradox by reviewing the results of experimental evolution studies, including a new one of our own, th...
It can be challenging for organisms to achieve a good match between their phenotypic characteristics...
Range expansions are complex evolutionary and ecological processes. From an evolutionary standpoint,...
Dispersal, whether in the form of a dandelion seed drifting on the breeze, or a salmon migrating ups...
Environmental heterogeneity is considered a general explanation for phenotypic diversification, part...
Environmental heterogeneity is considered a general explanation for phenotypic diversification, part...
Local adaptation seems to be common in natural systems, but the genetic causes of its evolution rema...
The survival of a population in a novel environment can depend upon the evolution of new traits—a pr...
The long history of reciprocal transplant studies testing the hypothesis of local adaptation has sho...
The distribution of fitness effects (DFE) among new mutations plays a critical role in adaptive evol...
Local adaptation is considered to be the result of fitness trade-offs for particular phenotypes acro...
Organisms commonly experience significant spatiotemporal variation in their environments. In respons...
When are mutations beneficial in one environment and deleterious in another? More generally, what is...
Environmental heterogeneity helps maintain genetic variation in fitness. Therefore, one might predic...
It can be challenging for organisms to achieve a good match between their phenotypic characteristics...
Range expansions are complex evolutionary and ecological processes. From an evolutionary standpoint,...
Dispersal, whether in the form of a dandelion seed drifting on the breeze, or a salmon migrating ups...
Environmental heterogeneity is considered a general explanation for phenotypic diversification, part...
Environmental heterogeneity is considered a general explanation for phenotypic diversification, part...
Local adaptation seems to be common in natural systems, but the genetic causes of its evolution rema...
The survival of a population in a novel environment can depend upon the evolution of new traits—a pr...
The long history of reciprocal transplant studies testing the hypothesis of local adaptation has sho...
The distribution of fitness effects (DFE) among new mutations plays a critical role in adaptive evol...
Local adaptation is considered to be the result of fitness trade-offs for particular phenotypes acro...
Organisms commonly experience significant spatiotemporal variation in their environments. In respons...
When are mutations beneficial in one environment and deleterious in another? More generally, what is...
Environmental heterogeneity helps maintain genetic variation in fitness. Therefore, one might predic...
It can be challenging for organisms to achieve a good match between their phenotypic characteristics...
Range expansions are complex evolutionary and ecological processes. From an evolutionary standpoint,...
Dispersal, whether in the form of a dandelion seed drifting on the breeze, or a salmon migrating ups...