Evolutionary theory predicts that local population divergence will depend on the balance between the diversifying effect of selection and the homogenizing effect of gene flow. However, spatial variation in the expression of genetic variation will also generate differential evolutionary responses. Furthermore, if dispersal is non-random it may actually reinforce, rather than counteract, evolutionary differentiation. Here we document the evolution of differences in body mass within a population of great tits, Parus major, inhabiting a single continuous woodland, over a 36-year period. We show that genetic variance for nestling body mass is spatially variable, that this generates different potential responses to selection, and that this divers...
Estimates of genetic variation and selection allow for quantitative predictions of evolutionary chan...
Dispersal is a major determinant of the dynamics and genetic structure of populations, and its conse...
Understanding the capacity of natural populations to adapt to their local environment is a central t...
Evolutionary theory predicts that local population divergence will depend on the balance between the...
Two recent studies of wild bird populations provide new insights into mechanisms of microevolutionar...
Phenotypic differentiation between populations is thought to occur mainly at spatial scales where ge...
Gene flow through dispersal has traditionally been thought to function as a force opposing evolution...
Heritable phenotypic traits under significant and consistent directional selection often fail to sho...
Heterogeneous selection is often proposed as a key mechanism maintaining repeatable behavioral varia...
<p>Gene flow is usually thought to reduce genetic divergence and impede local adaptation by homogeni...
Gene flow is usually thought to reduce genetic divergence and impede local adaptation by homogenisin...
Because specialist species evolved in more temporally and spatially homogeneous environments than ge...
Dispersal is a major determinant of the ecological and evolutionary dynamics of natural populations....
Ecology and evolution are intrinsically linked through an inevitable struggle for existence. This ha...
Heterogeneous selection is often proposed as a key mechanism maintaining repeatable behavioral varia...
Estimates of genetic variation and selection allow for quantitative predictions of evolutionary chan...
Dispersal is a major determinant of the dynamics and genetic structure of populations, and its conse...
Understanding the capacity of natural populations to adapt to their local environment is a central t...
Evolutionary theory predicts that local population divergence will depend on the balance between the...
Two recent studies of wild bird populations provide new insights into mechanisms of microevolutionar...
Phenotypic differentiation between populations is thought to occur mainly at spatial scales where ge...
Gene flow through dispersal has traditionally been thought to function as a force opposing evolution...
Heritable phenotypic traits under significant and consistent directional selection often fail to sho...
Heterogeneous selection is often proposed as a key mechanism maintaining repeatable behavioral varia...
<p>Gene flow is usually thought to reduce genetic divergence and impede local adaptation by homogeni...
Gene flow is usually thought to reduce genetic divergence and impede local adaptation by homogenisin...
Because specialist species evolved in more temporally and spatially homogeneous environments than ge...
Dispersal is a major determinant of the ecological and evolutionary dynamics of natural populations....
Ecology and evolution are intrinsically linked through an inevitable struggle for existence. This ha...
Heterogeneous selection is often proposed as a key mechanism maintaining repeatable behavioral varia...
Estimates of genetic variation and selection allow for quantitative predictions of evolutionary chan...
Dispersal is a major determinant of the dynamics and genetic structure of populations, and its conse...
Understanding the capacity of natural populations to adapt to their local environment is a central t...