Adaptive evolutionary responses are determined by the strength of selection and the amount of genetic variation within traits, however, both are known to vary across environmental conditions. As selection is generally expected to be strongest under stressful conditions, understanding how the expression of genetic variation changes across stressful and benign environmental conditions is crucial for predicting the rate of adaptive change. While theory generally predicts increased genetic variation under stress, previous syntheses of the field has found limited support for this notion. These studies have focused on heritability, which is dependent on other environmentally sensitive, but non-genetic, sources of variation. Here, we aim to comple...
Inbreeding-environment interactions occur when inbreeding leads to differential fitness loss in diff...
Laboratory selection in thermal regimes that differed in the amplitude and the predictability of dai...
The hypothesis that genetic homeostasis breaks down to yield greater genetic variance in more stress...
Adaptive evolutionary responses are determined by the strength of selection and the amount of geneti...
Adaptive evolutionary responses are determined by the strength of selection and the amount of geneti...
Adaptive evolutionary responses are determined by the strength of selection and the amount of geneti...
The file contains all the data for the analysis presented in the manuscript. study = authors of the ...
A common intuition among evolutionary biologists and ecologists is that environmental stress will in...
Selection in novel environments can lead to a coordinated evolutionary response across a suite of ch...
Selection in novel environments can lead to a coordinated evolutionary response across a suite of ch...
A common intuition among evolutionary biologists and ecologists is that environmental stress will in...
Laboratory selection in thermal regimes that differed in the amplitude and the predictability of dai...
Inbreeding-environment interactions occur when inbreeding leads to differential fitness loss in diff...
The contribution of genetic variation to phenotypes is a central factor in whether and how populatio...
Inbreeding-environment interactions occur when inbreeding leads to differential fitness loss in diff...
Inbreeding-environment interactions occur when inbreeding leads to differential fitness loss in diff...
Laboratory selection in thermal regimes that differed in the amplitude and the predictability of dai...
The hypothesis that genetic homeostasis breaks down to yield greater genetic variance in more stress...
Adaptive evolutionary responses are determined by the strength of selection and the amount of geneti...
Adaptive evolutionary responses are determined by the strength of selection and the amount of geneti...
Adaptive evolutionary responses are determined by the strength of selection and the amount of geneti...
The file contains all the data for the analysis presented in the manuscript. study = authors of the ...
A common intuition among evolutionary biologists and ecologists is that environmental stress will in...
Selection in novel environments can lead to a coordinated evolutionary response across a suite of ch...
Selection in novel environments can lead to a coordinated evolutionary response across a suite of ch...
A common intuition among evolutionary biologists and ecologists is that environmental stress will in...
Laboratory selection in thermal regimes that differed in the amplitude and the predictability of dai...
Inbreeding-environment interactions occur when inbreeding leads to differential fitness loss in diff...
The contribution of genetic variation to phenotypes is a central factor in whether and how populatio...
Inbreeding-environment interactions occur when inbreeding leads to differential fitness loss in diff...
Inbreeding-environment interactions occur when inbreeding leads to differential fitness loss in diff...
Laboratory selection in thermal regimes that differed in the amplitude and the predictability of dai...
The hypothesis that genetic homeostasis breaks down to yield greater genetic variance in more stress...