Variable selection pressures across heterogeneous landscapes can lead to local adaptation of populations. The extent of local adaptation depends on the interplay between natural selection and gene flow, but the nature of this relationship is complex. Gene flow can constrain local adaptation by eroding differentiation driven by natural selection, or local adaptation can itself constrain gene flow through selection against maladapted immigrants. Here we test for evidence that natural selection constrains gene flow among populations of a widespread passerine bird (Zonotrichia capensis) that are distributed along an elevational gradient in the Peruvian Andes. Using multilocus sequences and microsatellites screened in 142 individuals collected a...
Understanding the spatial scale at which selection acts upon adaptive genetic variation in natural p...
Abstract As modern genomic tools are developed for ecologically compelling models, field manipulatio...
This is the final version of the article. Available from Springer Nature via the DOI in this record....
Gene flow is traditionally thought to be antagonistic to population differentiation and local adapta...
Determining the relative roles of vicariance and selection in restricting gene flow between populati...
Two recent studies of wild bird populations provide new insights into mechanisms of microevolutionar...
Ongoing adaptive evolution, and resulting “evolutionary rescue” of declining populations, requires a...
Ongoing adaptive evolution, and resulting “evolutionary rescue” of declining populations, requires a...
Adaptation is among the most prominent subjects in evolutionary biology. Despite its ubiquity in nat...
Ongoing adaptive evolution, and resulting 'evolutionary rescue' of declining populations, requires a...
Most species inhabit environments that are spatially heterogeneous at some scale. If dispersal is lo...
Local adaptation frequently occurs across populations as a result of migration-selection balance bet...
Understanding the capacity of natural populations to adapt to their local environment is a central t...
Diversifying selection on metabolic pathways can reduce intraspecific gene flow and promote populati...
The formation of independent evolutionary lineages involves neutral and selective factors, and under...
Understanding the spatial scale at which selection acts upon adaptive genetic variation in natural p...
Abstract As modern genomic tools are developed for ecologically compelling models, field manipulatio...
This is the final version of the article. Available from Springer Nature via the DOI in this record....
Gene flow is traditionally thought to be antagonistic to population differentiation and local adapta...
Determining the relative roles of vicariance and selection in restricting gene flow between populati...
Two recent studies of wild bird populations provide new insights into mechanisms of microevolutionar...
Ongoing adaptive evolution, and resulting “evolutionary rescue” of declining populations, requires a...
Ongoing adaptive evolution, and resulting “evolutionary rescue” of declining populations, requires a...
Adaptation is among the most prominent subjects in evolutionary biology. Despite its ubiquity in nat...
Ongoing adaptive evolution, and resulting 'evolutionary rescue' of declining populations, requires a...
Most species inhabit environments that are spatially heterogeneous at some scale. If dispersal is lo...
Local adaptation frequently occurs across populations as a result of migration-selection balance bet...
Understanding the capacity of natural populations to adapt to their local environment is a central t...
Diversifying selection on metabolic pathways can reduce intraspecific gene flow and promote populati...
The formation of independent evolutionary lineages involves neutral and selective factors, and under...
Understanding the spatial scale at which selection acts upon adaptive genetic variation in natural p...
Abstract As modern genomic tools are developed for ecologically compelling models, field manipulatio...
This is the final version of the article. Available from Springer Nature via the DOI in this record....