Explanations for rapid species’ range expansions have typically been purely ecological, with little attention given to evolutionary processes. We tested predictions for the evolution of dispersal during range expansion using four species of wing‐dimorphic bush cricket (Conocephalus discolor, Conocephalus dorsalis, Metrioptera roeselii, and Metrioptera brachyptera). We observed distinct changes in dispersal in the two species with expanding ranges. Recently colonized populations at the range margin showed increased frequencies of dispersive, long‐winged (macropterous) individuals, compared with longer‐established populations in the range core. This increase in dispersal appeared to be short‐lived because 5–10 years after colonization populat...
Anthropogenic interference forces species to respond to changing environmental conditions. One possi...
International audienceColonization and expansion into novel landscapes determine the distribution an...
Generalist species and phenotypes are expected to perform best under rapid environmental change. In ...
<div><p>There are large variations in the responses of species to the environmental changes of recen...
There are large variations in the responses of species to the environmental changes of recent decade...
The evolutionary trajectories associated with demographic, genetic and spatial disequilibrium have b...
Species ’ range expansions in response to climate change, and the invasion of exotic organisms, are ...
Wißmann J, Schielzeth H, Fartmann T. Landscape-scale expansion of Roesel's bush-cricket Metrioptera ...
During recent climate warming, some species have expanded their ranges northwards to keep track of c...
Individuals that disperse farther than other individuals are more likely to be on the frontlines of ...
There are large variations in the responses of species to the environmental changes of recent decade...
A bstract As human influence reshapes communities worldwide, many species expand or shift their rang...
We wish to thank Adrien Adelsri, Violaine Chatre-Belle, Samuel Courtaut, Bertrand Gauffre, Louis Hau...
Range expansions and biological invasions are prime examples of transient processes that are likely ...
There are large variations in the responses of species to the environmental changes of recent decade...
Anthropogenic interference forces species to respond to changing environmental conditions. One possi...
International audienceColonization and expansion into novel landscapes determine the distribution an...
Generalist species and phenotypes are expected to perform best under rapid environmental change. In ...
<div><p>There are large variations in the responses of species to the environmental changes of recen...
There are large variations in the responses of species to the environmental changes of recent decade...
The evolutionary trajectories associated with demographic, genetic and spatial disequilibrium have b...
Species ’ range expansions in response to climate change, and the invasion of exotic organisms, are ...
Wißmann J, Schielzeth H, Fartmann T. Landscape-scale expansion of Roesel's bush-cricket Metrioptera ...
During recent climate warming, some species have expanded their ranges northwards to keep track of c...
Individuals that disperse farther than other individuals are more likely to be on the frontlines of ...
There are large variations in the responses of species to the environmental changes of recent decade...
A bstract As human influence reshapes communities worldwide, many species expand or shift their rang...
We wish to thank Adrien Adelsri, Violaine Chatre-Belle, Samuel Courtaut, Bertrand Gauffre, Louis Hau...
Range expansions and biological invasions are prime examples of transient processes that are likely ...
There are large variations in the responses of species to the environmental changes of recent decade...
Anthropogenic interference forces species to respond to changing environmental conditions. One possi...
International audienceColonization and expansion into novel landscapes determine the distribution an...
Generalist species and phenotypes are expected to perform best under rapid environmental change. In ...