As climates change, some plant species will need to migrate across landscapes fragmented by unsuitable environments and human activities to colonize new areas with suitable climates as previously habited areas become uninhabitable. Previous modelling of plant's migration potential has generally assumed that climate changes at a constant rate, but this ignores many potentially important aspects of real climate variability. In this study, a spatially explicit simulation model was used to investigate how interannual climate variability, the occurrence of extreme events and step changes in climate might interact with gradual long-term climate change to affect plant species’ capacity to migrate across fragmented landscapes and persist. The consi...
Potentially significant shifts in the geographical patterns of vegetation are an expected result of ...
Climate is a potent selective force in natural populations, yet the importance of adaptation in the ...
Current models predict that up to 60% of species are at a greater risk of extinction due to climate ...
Many organisms are threatened by global climate change, but as sessile organisms, plants are particu...
Many species are threatened by global climate change, but plants are particularly vulnerable because...
Many studies have examined the impact of dispersal on local adaptation, but much less attention has ...
Assessments of future tree species' distributions should account for time lags in the adaptation of ...
As climate changes, some plant species will start to die out in areas where climate becomes unsuited...
Climate change is expected to favor shifts in plant distributions; some such shifts are already bein...
Climate change is expected to favor shifts in plant distributions; some such shifts are already bein...
Future climate change is predicted to advance faster than the postglacial warming. Migration may the...
A central issue in climate change research is to identify what species will be most affected by vari...
<div><p>Future climate change is predicted to advance faster than the postglacial warming. Migration...
International audienceGiven the rate of projected environmental change for the 21st century, urgent ...
Life cycles can limit the abilities of species to track changing climatic conditions. We combined ag...
Potentially significant shifts in the geographical patterns of vegetation are an expected result of ...
Climate is a potent selective force in natural populations, yet the importance of adaptation in the ...
Current models predict that up to 60% of species are at a greater risk of extinction due to climate ...
Many organisms are threatened by global climate change, but as sessile organisms, plants are particu...
Many species are threatened by global climate change, but plants are particularly vulnerable because...
Many studies have examined the impact of dispersal on local adaptation, but much less attention has ...
Assessments of future tree species' distributions should account for time lags in the adaptation of ...
As climate changes, some plant species will start to die out in areas where climate becomes unsuited...
Climate change is expected to favor shifts in plant distributions; some such shifts are already bein...
Climate change is expected to favor shifts in plant distributions; some such shifts are already bein...
Future climate change is predicted to advance faster than the postglacial warming. Migration may the...
A central issue in climate change research is to identify what species will be most affected by vari...
<div><p>Future climate change is predicted to advance faster than the postglacial warming. Migration...
International audienceGiven the rate of projected environmental change for the 21st century, urgent ...
Life cycles can limit the abilities of species to track changing climatic conditions. We combined ag...
Potentially significant shifts in the geographical patterns of vegetation are an expected result of ...
Climate is a potent selective force in natural populations, yet the importance of adaptation in the ...
Current models predict that up to 60% of species are at a greater risk of extinction due to climate ...