Dispersal is a process of central importance for the ecological and evolutionary dynamics of populations and communities, because of its diverse consequences for gene flow and demography. It is subject to evolutionary change, which begs the question, what is the genetic basis of this potentially complex trait? To address this question, we (i) review the empirical literature on the genetic basis of dispersal, (ii) explore how theoretical investigations of the evolution of dispersal have represented the genetics of dispersal, and (iii) discuss how the genetic basis of dispersal influences theoretical predictions of the evolution of dispersal and potential consequences. Dispersal has a detectable genetic basis in many organisms, from bacteria ...
Across a range of organisms, related species or even populations of the same species exhibit strikin...
Darwinian evolution consists of the gradual transformation of heritable traits due to natural select...
We build on the work of El Mouden and Gardner (2008) and consider the evolution of natal dispersal c...
Dispersal is a process of central importance for the ecological and evolutionary dynamics of populat...
Dispersal is a process of central importance for the ecological and evolutionary dynamics of populat...
Dispersal is a life-history trait that has profound consequences for populations. Viewed from an eco...
Dispersal often covaries with other traits, and this covariation was shown to have a genetic basis. ...
In this chapter, we stress the gaps in our knowledge about dispersal evolution and suggest several p...
Dispersal ultimately causes gene flow through space and/or time and, thus, understanding why, how, a...
Dispersal is a crucial factor in natural evolution, since it determines the habitat experienced by a...
Dispersal is a crucial factor in natural evolution, since it determines the habitat experienced by a...
Dispersal is a life-history trait that has profound consequences for populations. Viewed from an eco...
Dispersal is a major determinant of the ecological and evolutionary dynamics of natural populations....
Phenotypic plasticity, the ability of one genotype to produce different phenotypes in different envi...
Across a range of organisms, related species or even populations of the same species exhibit strikin...
Darwinian evolution consists of the gradual transformation of heritable traits due to natural select...
We build on the work of El Mouden and Gardner (2008) and consider the evolution of natal dispersal c...
Dispersal is a process of central importance for the ecological and evolutionary dynamics of populat...
Dispersal is a process of central importance for the ecological and evolutionary dynamics of populat...
Dispersal is a life-history trait that has profound consequences for populations. Viewed from an eco...
Dispersal often covaries with other traits, and this covariation was shown to have a genetic basis. ...
In this chapter, we stress the gaps in our knowledge about dispersal evolution and suggest several p...
Dispersal ultimately causes gene flow through space and/or time and, thus, understanding why, how, a...
Dispersal is a crucial factor in natural evolution, since it determines the habitat experienced by a...
Dispersal is a crucial factor in natural evolution, since it determines the habitat experienced by a...
Dispersal is a life-history trait that has profound consequences for populations. Viewed from an eco...
Dispersal is a major determinant of the ecological and evolutionary dynamics of natural populations....
Phenotypic plasticity, the ability of one genotype to produce different phenotypes in different envi...
Across a range of organisms, related species or even populations of the same species exhibit strikin...
Darwinian evolution consists of the gradual transformation of heritable traits due to natural select...
We build on the work of El Mouden and Gardner (2008) and consider the evolution of natal dispersal c...