Most population genetic theory assumes that populations adapt to an environmental change without a change in population size. However, environmental changes might be so severe that populations decline in size and, without adaptation, become extinct. This “evolutionary rescue” scenario differs from traditional models of adaptation in that rescue involves a race between adaptation and extinction. While most previous work has usually focused on models of evolutionary rescue in haploids, here we consider diploids. In many species, diploidy introduces a novel feature into adaptation: adaptive evolution might occur either on sex chromosomes or on autosomes. Previous studies of nonrescue adaptation revealed that the relative rates of adaptation on...
The evolutionary genetics of haplodiploids and X-linked genes share many fea-tures and are different...
Many organisms spend a significant portion of their life cycle as haploids and as diploids (a haploi...
Partially recessive variants under positive selection are expected to go to fixation more quickly on...
Most population genetic theory assumes that populations adapt to an environmental change without a c...
Evolutionary rescue occurs when a population that is threatened with extinction by an environmental ...
Theories of adaptation typically ignore the effect of environmental change on population size. But s...
Spatially varying selection with gene flow can favour the evolution of inversions that bind locally ...
Whole-genome duplication is a common mutation in eukaryotes with far-reaching phenotypic effects. Th...
Spatially varying selection with gene flow can favour the evolution of inversions that bind locally ...
Severe environmental change can drive a population extinct unless the population adapts in time to t...
Evolutionary rates and strength of selection differ markedly between haploid and diploid genomes. An...
The evolutionary genetics of haplodiploids and X-linked genes share many features and are different ...
International audienceThe past century has seen substantial theoretical and empirical progress on th...
Spatially varying selection with gene flow can favour the evolution of inversions that bind locally ...
Spatially varying selection with gene flow can favour the evolution of inversions that bind locally ...
The evolutionary genetics of haplodiploids and X-linked genes share many fea-tures and are different...
Many organisms spend a significant portion of their life cycle as haploids and as diploids (a haploi...
Partially recessive variants under positive selection are expected to go to fixation more quickly on...
Most population genetic theory assumes that populations adapt to an environmental change without a c...
Evolutionary rescue occurs when a population that is threatened with extinction by an environmental ...
Theories of adaptation typically ignore the effect of environmental change on population size. But s...
Spatially varying selection with gene flow can favour the evolution of inversions that bind locally ...
Whole-genome duplication is a common mutation in eukaryotes with far-reaching phenotypic effects. Th...
Spatially varying selection with gene flow can favour the evolution of inversions that bind locally ...
Severe environmental change can drive a population extinct unless the population adapts in time to t...
Evolutionary rates and strength of selection differ markedly between haploid and diploid genomes. An...
The evolutionary genetics of haplodiploids and X-linked genes share many features and are different ...
International audienceThe past century has seen substantial theoretical and empirical progress on th...
Spatially varying selection with gene flow can favour the evolution of inversions that bind locally ...
Spatially varying selection with gene flow can favour the evolution of inversions that bind locally ...
The evolutionary genetics of haplodiploids and X-linked genes share many fea-tures and are different...
Many organisms spend a significant portion of their life cycle as haploids and as diploids (a haploi...
Partially recessive variants under positive selection are expected to go to fixation more quickly on...