Fisher's Geometric Model of Adaptation (FGM) has been the conceptual foundation for studies investigating the genetic basis of adaptation since the onset of the neo Darwinian synthesis. FGM describes adaptation as the movement of a genotype toward a fitness optimum due to beneficial mutations. To date, one prediction of FGM, the probability of improvement is related to the distance from the optimum, has only been tested in microorganisms under laboratory conditions. There is reason to believe that results might differ under natural conditions where more mutations likely affect fitness, and where environmental variance may obscure the expected pattern. We chemically induced mutations into a set of 19 Arabidopsis thaliana accessions from acro...
Despite the fundamental importance of mutation to the evolutionary process, we have little knowledge...
Unraveling the factors that determine the rate of adaptation is a major question in evolutionary bio...
Local adaptation seems to be common in natural systems, but the genetic causes of its evolution rema...
Fisher's Geometric Model of Adaptation (FGM) has been the conceptual foundation for studies investig...
As the ultimate source of genetic diversity, spontaneous mutation is critical to the evolutionary pr...
Despite the fundamental importance of mutation to the evolutionary process, we have little knowledge...
When are mutations beneficial in one environment and deleterious in another? More generally, what is...
As the ultimate source of genetic diversity, spontaneous mutation is critical to the evolutionary pr...
International audienceThe fitness landscapethe mapping between genotypes and fitnessdetermines prope...
The distribution of fitness effects (DFE) among new mutations plays a critical role in adaptive evol...
Fisher's geometric model has been widely used to study the effects of pleiotropy and organismic comp...
Range expansions are complex evolutionary and ecological processes. From an evolutionary standpoint,...
Despite the fundamental importance of mutation to the evolutionary process, we have little knowledge...
Unraveling the factors that determine the rate of adaptation is a major question in evolutionary bio...
Local adaptation seems to be common in natural systems, but the genetic causes of its evolution rema...
Fisher's Geometric Model of Adaptation (FGM) has been the conceptual foundation for studies investig...
As the ultimate source of genetic diversity, spontaneous mutation is critical to the evolutionary pr...
Despite the fundamental importance of mutation to the evolutionary process, we have little knowledge...
When are mutations beneficial in one environment and deleterious in another? More generally, what is...
As the ultimate source of genetic diversity, spontaneous mutation is critical to the evolutionary pr...
International audienceThe fitness landscapethe mapping between genotypes and fitnessdetermines prope...
The distribution of fitness effects (DFE) among new mutations plays a critical role in adaptive evol...
Fisher's geometric model has been widely used to study the effects of pleiotropy and organismic comp...
Range expansions are complex evolutionary and ecological processes. From an evolutionary standpoint,...
Despite the fundamental importance of mutation to the evolutionary process, we have little knowledge...
Unraveling the factors that determine the rate of adaptation is a major question in evolutionary bio...
Local adaptation seems to be common in natural systems, but the genetic causes of its evolution rema...