Population genetic theory predicts that adaptation in novel environments is enhanced by genetic variation for fitness. However, theory also predicts that under strong selection, demographic stochasticity can drive populations to extinction before they can adapt. We exposed wheat-adapted populations of the flour beetle (Tribolium castaneum) to a novel suboptimal corn resource, to test the effects of founding genetic variation on population decline and subsequent extinction or adaptation. As previously reported, genetically diverse populations were less likely to go extinct. Here, we show that among surviving populations, genetically diverse groups recovered faster after initial population decline. Within two years, surviving populations sign...
Abstract In presence of rapid environmental changes, it is of particular importance to assess the a...
International audienceThe risk of extinction faced by small isolated populations in changing environ...
The additive genetic variation (VA) of fitness in a population is of particular importance to quanti...
Population genetic theory predicts that adaptation in novel environments is enhanced by genetic vari...
Extinction risk of small isolated populations in changing environments can be reduced by rapid adapt...
Setting aside high-quality large areas of habitat to protect threatened populations is becoming incr...
textIntraspecific genetic diversity is an important attribute of natural populations and is deemed c...
Rapid adaptation can be necessary to prevent extinction when populations are exposed to extremely ma...
Colonisation is a fundamental ecological and evolutionary process that drives the distribution and a...
Trade-offs have often been invoked to explain the evolution of ecological specialization. Phytophago...
Experimental evolution has provided little support for the hypothesis that the narrow diets of herbi...
Indirect genetic effects (IGEs) are the basis of social interactions among conspecifics, and can aff...
Rapid environmental change presents a significant challenge to the persistence of natural population...
Abstract In presence of rapid environmental changes, it is of particular importance to assess the a...
International audienceThe risk of extinction faced by small isolated populations in changing environ...
The additive genetic variation (VA) of fitness in a population is of particular importance to quanti...
Population genetic theory predicts that adaptation in novel environments is enhanced by genetic vari...
Extinction risk of small isolated populations in changing environments can be reduced by rapid adapt...
Setting aside high-quality large areas of habitat to protect threatened populations is becoming incr...
textIntraspecific genetic diversity is an important attribute of natural populations and is deemed c...
Rapid adaptation can be necessary to prevent extinction when populations are exposed to extremely ma...
Colonisation is a fundamental ecological and evolutionary process that drives the distribution and a...
Trade-offs have often been invoked to explain the evolution of ecological specialization. Phytophago...
Experimental evolution has provided little support for the hypothesis that the narrow diets of herbi...
Indirect genetic effects (IGEs) are the basis of social interactions among conspecifics, and can aff...
Rapid environmental change presents a significant challenge to the persistence of natural population...
Abstract In presence of rapid environmental changes, it is of particular importance to assess the a...
International audienceThe risk of extinction faced by small isolated populations in changing environ...
The additive genetic variation (VA) of fitness in a population is of particular importance to quanti...