Quantitative-genetic models of differentiation under migration-selection balance often rely on the assumption of normally distributed genotypic and phenotypic values. When a population is subdivided into demes with selection toward different local optima, migration between demes may result in asymmetric, or skewed, local distributions. Using a simplified two-habitat model, we derive formulas without a priori assuming a Gaussian distribution of genotypic values, and we find expressions that naturally incorporate higher moments, such as skew. These formulas yield predictions of the expected divergence under migration-selection balance that are more accurate than models assuming Gaussian distributions, which illustrates the importance of incor...
Understanding macroevolutionary patterns is central to evolutionary biology. This involves the proce...
Populations often experience variable conditions, both in time and space. Here we develop a novel th...
Several evolutionary processes shape the genetic and phenotypic differentiation of populations. Amon...
Quantitative-genetic models of differentiation under migration-selection balance often rely on the a...
Quantitative-genetic models of differentiation under migration-selection balance often rely on the a...
The evolution of a quantitative trait subject to stabilizing selection and immigration, with the imm...
The balance between stabilizing selection and migration of maladapted individuals has formerly been ...
Observed phenotypic responses to selection in the wild often differ from predictions based on measur...
There is a long tradition in population genetics of exploring the maintenance of variation under mig...
How do mutation and gene flow influence population persistence, niche expansion, and local adaptatio...
International audienceNumerous traits under migration-selection balance are shown to exhibit complex...
Recent work incorporating demographic–genetic interactions indicates the importance of population si...
International audienceWe use individual-based stochastic simulations and analytical deterministic pr...
Understanding macroevolutionary patterns is central to evolutionary biology. This involves the proce...
Populations often experience variable conditions, both in time and space. Here we develop a novel th...
Several evolutionary processes shape the genetic and phenotypic differentiation of populations. Amon...
Quantitative-genetic models of differentiation under migration-selection balance often rely on the a...
Quantitative-genetic models of differentiation under migration-selection balance often rely on the a...
The evolution of a quantitative trait subject to stabilizing selection and immigration, with the imm...
The balance between stabilizing selection and migration of maladapted individuals has formerly been ...
Observed phenotypic responses to selection in the wild often differ from predictions based on measur...
There is a long tradition in population genetics of exploring the maintenance of variation under mig...
How do mutation and gene flow influence population persistence, niche expansion, and local adaptatio...
International audienceNumerous traits under migration-selection balance are shown to exhibit complex...
Recent work incorporating demographic–genetic interactions indicates the importance of population si...
International audienceWe use individual-based stochastic simulations and analytical deterministic pr...
Understanding macroevolutionary patterns is central to evolutionary biology. This involves the proce...
Populations often experience variable conditions, both in time and space. Here we develop a novel th...
Several evolutionary processes shape the genetic and phenotypic differentiation of populations. Amon...