The traditional view that species are held together through gene flow has been challenged by observations that migration is too restricted among populations of many species to prevent local divergence. However, only very low levels of gene flow are necessary to permit the spread of highly advantageous alleles, providing an alternative means by which low-migration species might be held together. We re-evaluate these arguments given the recent and wide availability of indirect estimates of gene flow. Our literature review of Fst values for a broad range of taxa suggests that gene flow in many taxa is considerably greater than suspected from earlier studies and often is sufficiently high to homogenize even neutral alleles. However, there are n...
The interplay of divergent selection and gene flow is key to understanding how populations adapt to ...
The process of genetic differentiation among conspecific populations constitutes the first stage of ...
Dispersal moves individuals from patches where their immediate ancestors were successful to sites wh...
The traditional view that species are held together through gene flow has been challenged by observa...
Whatever one's definition of species, it is generally expected that individuals of the same species ...
Adaptation to new environments often occurs in the face of gene flow. Under these conditions, gene f...
The framework for modern studies of speciation was established as part of the Neo-Darwinian synthesi...
Speciation, the evolution of reproductive isolation amongst populations, is continuous, complex, and...
Under allopatric speciation, geographic barriers eliminate gene flow between eventual species at all...
How species evolve collectively: implications of gene flow and selection for the spread of advantage...
Several evolutionary processes shape the genetic and phenotypic differentiation of populations. Amon...
Dispersal is a process of central importance for the ecological and evolutionary dynamics of populat...
Coalescent theory has provided a basis for evolutionary biologists to build sophisticated methods fo...
The evolutionary stability of quantitative traits depends on whether a population can resist invasio...
The interplay of divergent selection and gene flow is key to understanding how populations adapt to ...
The process of genetic differentiation among conspecific populations constitutes the first stage of ...
Dispersal moves individuals from patches where their immediate ancestors were successful to sites wh...
The traditional view that species are held together through gene flow has been challenged by observa...
Whatever one's definition of species, it is generally expected that individuals of the same species ...
Adaptation to new environments often occurs in the face of gene flow. Under these conditions, gene f...
The framework for modern studies of speciation was established as part of the Neo-Darwinian synthesi...
Speciation, the evolution of reproductive isolation amongst populations, is continuous, complex, and...
Under allopatric speciation, geographic barriers eliminate gene flow between eventual species at all...
How species evolve collectively: implications of gene flow and selection for the spread of advantage...
Several evolutionary processes shape the genetic and phenotypic differentiation of populations. Amon...
Dispersal is a process of central importance for the ecological and evolutionary dynamics of populat...
Coalescent theory has provided a basis for evolutionary biologists to build sophisticated methods fo...
The evolutionary stability of quantitative traits depends on whether a population can resist invasio...
The interplay of divergent selection and gene flow is key to understanding how populations adapt to ...
The process of genetic differentiation among conspecific populations constitutes the first stage of ...
Dispersal moves individuals from patches where their immediate ancestors were successful to sites wh...