© The Author(s) 2011. This article is published with open access at Springerlink.com Abstract We consider a fixed size population that undergoes an evolutionary adaptation in the weak mutation rate limit, which we model as a biased Langevin process in the genotype space. We show analytically and numerically that, if the fitness landscape has a small highly epistatic (rough) and time-varying component, then the population genotype exhibits a high effective diffusion in the genotype space and is able to escape local fitness minima with a large probability. We argue that our principal finding that even very small time-dependent fluctuations of fitness can substantially speed up evolution is valid for a wide class of models
Within the framework of population genetics we consider the evolution of an asexual haploid populati...
Adaptation in spatially extended populations entails the propagation of evolutionary novelties acros...
We are interested in populations in which the fitness of different genetic types fluctuates in time ...
The evolution of a dispersal trait is a classical question in evolutionary ecology, which has been w...
International audienceContinuous environmental change-such as slowly rising temperatures-may create ...
The adaptive evolution of large asexual populations is generally characterized by competition betwee...
Small populations are thought to be adaptively handicapped, not only because they suffer more from d...
Epochal dynamics, in which long periods of stasis in an evolving population are punctuated by a sudd...
Background Small populations are thought to be adaptively handicapped, not only because they suffer ...
The dynamics of adaptation are difficult to predict because it is highly stochastic even in large po...
Understanding evolution on complex fitness landscapes is difficult both because of the large dimensi...
Most mutations are deleterious and cause a reduction in population fitness known as the mutational l...
Adaptation depends critically on the effects of new mutations and their dependency on the genetic ba...
Understanding evolution on complex fitness landscapes is difficult both because of the large dimensi...
The dynamics of adaptation are difficult to predict because it is highly stochastic even in large po...
Within the framework of population genetics we consider the evolution of an asexual haploid populati...
Adaptation in spatially extended populations entails the propagation of evolutionary novelties acros...
We are interested in populations in which the fitness of different genetic types fluctuates in time ...
The evolution of a dispersal trait is a classical question in evolutionary ecology, which has been w...
International audienceContinuous environmental change-such as slowly rising temperatures-may create ...
The adaptive evolution of large asexual populations is generally characterized by competition betwee...
Small populations are thought to be adaptively handicapped, not only because they suffer more from d...
Epochal dynamics, in which long periods of stasis in an evolving population are punctuated by a sudd...
Background Small populations are thought to be adaptively handicapped, not only because they suffer ...
The dynamics of adaptation are difficult to predict because it is highly stochastic even in large po...
Understanding evolution on complex fitness landscapes is difficult both because of the large dimensi...
Most mutations are deleterious and cause a reduction in population fitness known as the mutational l...
Adaptation depends critically on the effects of new mutations and their dependency on the genetic ba...
Understanding evolution on complex fitness landscapes is difficult both because of the large dimensi...
The dynamics of adaptation are difficult to predict because it is highly stochastic even in large po...
Within the framework of population genetics we consider the evolution of an asexual haploid populati...
Adaptation in spatially extended populations entails the propagation of evolutionary novelties acros...
We are interested in populations in which the fitness of different genetic types fluctuates in time ...