Understanding how major mechanisms of evolution, i.e. selection, gene flow, mutations, and genetic drift, shape natural populations is a major goal of evolutionary biology. Due to climate change, the environment and ranges of species are changing rapidly. Through rapid adaptation, populations can potentially respond to rapid environmental changes. Yet, how gene flow and rapid adaptation work together to shape natural populations is still an open question in biology. North American populations of Drosophila melanogaster provide a strong model to investigate this relationship as they exhibit latitudinal clines, low levels of variation, and rapid adaptation to environmental parameters that change rapidly with season. In this dissertation, I in...
Investigating spatial patterns of loci under selection can give insight into how populations evolved...
Background: Natural selection and genetic drift are major forces responsible for temporal genetic ch...
Natural environments change over time and space. How populations respond to different forms of envir...
As a result of the fragmentation of their habitats, many organisms live in small and relatively isol...
Organisms have colonized virtually all types of life-sustaining habitats on our planet resulting in ...
As a result of the fragmentation of their habitats, many organisms live in small and relatively isol...
Evolution is driven by four major processes that create, maintain, or eliminate genetic diversity wi...
Global climate is changing rapidly and is accompanied by large-scale fragmentation and destruction o...
International audienceWe use individual-based stochastic simulations and analytical deterministic pr...
While several studies in a diverse set of species have shed light on the genes underlying adaptation...
Dispersal moves individuals from patches where their immediate ancestors were successful to sites wh...
Variation in morphology results in variation in ecologically relevant performances, which ultimately...
Migratory behaviour is rapidly changing in response to recent environmental changes, yet it is diffi...
Most species inhabit environments that are spatially heterogeneous at some scale. If dispersal is lo...
We use individual-based stochastic simulations and analytical deterministic predictions to investiga...
Investigating spatial patterns of loci under selection can give insight into how populations evolved...
Background: Natural selection and genetic drift are major forces responsible for temporal genetic ch...
Natural environments change over time and space. How populations respond to different forms of envir...
As a result of the fragmentation of their habitats, many organisms live in small and relatively isol...
Organisms have colonized virtually all types of life-sustaining habitats on our planet resulting in ...
As a result of the fragmentation of their habitats, many organisms live in small and relatively isol...
Evolution is driven by four major processes that create, maintain, or eliminate genetic diversity wi...
Global climate is changing rapidly and is accompanied by large-scale fragmentation and destruction o...
International audienceWe use individual-based stochastic simulations and analytical deterministic pr...
While several studies in a diverse set of species have shed light on the genes underlying adaptation...
Dispersal moves individuals from patches where their immediate ancestors were successful to sites wh...
Variation in morphology results in variation in ecologically relevant performances, which ultimately...
Migratory behaviour is rapidly changing in response to recent environmental changes, yet it is diffi...
Most species inhabit environments that are spatially heterogeneous at some scale. If dispersal is lo...
We use individual-based stochastic simulations and analytical deterministic predictions to investiga...
Investigating spatial patterns of loci under selection can give insight into how populations evolved...
Background: Natural selection and genetic drift are major forces responsible for temporal genetic ch...
Natural environments change over time and space. How populations respond to different forms of envir...