Climate change is expected to favor shifts in plant distributions; some such shifts are already being observed along elevation gradients. However, the rate of such shifts may be limited by their ability to reach newly suitable areas and by competition from resident species. The degree of local adaptation and genetic variation may also play a role in the interaction between migrants and residents by affecting relative fitness. We used a simulation model to explore the interacting effects of dispersal, fecundity, disturbance, and genetic variation on range-edge dynamics between a pair of demographically similar tree species. Ideal climate for an individual is determined by genotype. The simulated landscape undergoes an 80-year period of clima...
Climate change can trigger species range shifts, local extinctions and changes in diversity. Species...
Many species are undergoing distributional shifts in response to climate change. However, wide varia...
Species are shifting their ranges under climate change, with genetic and evolutionary consequences. ...
Climate change is expected to favor shifts in plant distributions; some such shifts are already bein...
Many studies have examined the impact of dispersal on local adaptation, but much less attention has ...
Potentially significant shifts in the geographical patterns of vegetation are an expected result of ...
Understanding the ability of species to shift their geographic range is of considerable importance g...
Dispersal ability will largely determine whether species track their climatic niches during climate ...
Assessments of future tree species' distributions should account for time lags in the adaptation of ...
Species can either adapt to new conditions induced by climate change or shift their range in an atte...
1. Species range limits are expected to be dramatically altered under future climate change and many...
Climate change is a great threat to global biodiversity and has resulted in serious ecological conse...
How populations of long-living species respond to climate change depends on phenotypic plasticity an...
As climates change, some plant species will need to migrate across landscapes fragmented by unsuitab...
Many species are undergoing distributional changes in response to climate change. However, wide vari...
Climate change can trigger species range shifts, local extinctions and changes in diversity. Species...
Many species are undergoing distributional shifts in response to climate change. However, wide varia...
Species are shifting their ranges under climate change, with genetic and evolutionary consequences. ...
Climate change is expected to favor shifts in plant distributions; some such shifts are already bein...
Many studies have examined the impact of dispersal on local adaptation, but much less attention has ...
Potentially significant shifts in the geographical patterns of vegetation are an expected result of ...
Understanding the ability of species to shift their geographic range is of considerable importance g...
Dispersal ability will largely determine whether species track their climatic niches during climate ...
Assessments of future tree species' distributions should account for time lags in the adaptation of ...
Species can either adapt to new conditions induced by climate change or shift their range in an atte...
1. Species range limits are expected to be dramatically altered under future climate change and many...
Climate change is a great threat to global biodiversity and has resulted in serious ecological conse...
How populations of long-living species respond to climate change depends on phenotypic plasticity an...
As climates change, some plant species will need to migrate across landscapes fragmented by unsuitab...
Many species are undergoing distributional changes in response to climate change. However, wide vari...
Climate change can trigger species range shifts, local extinctions and changes in diversity. Species...
Many species are undergoing distributional shifts in response to climate change. However, wide varia...
Species are shifting their ranges under climate change, with genetic and evolutionary consequences. ...