Projected responses of species' to climate change have so far included few of the factors that are important determinants of species' distributions within its range. In this paper we utilise a spatially explicit cellular lattice, colonisation-extinction model to investigate the effect of habitat loss, fragmentation and species characteristics on range shifting in response to climate change. Contrary to the predictions of patch occupancy in static climate models we show that fragmentation can have a positive effect on species survival when species have high colonisation rates. For species with low colonisation rates aggregative behaviours prevent success on fragmented landscapes at high levels of habitat loss, and range shifting is more succ...
A longstanding question in ecology concerns the prediction of the fate of mountain species under cli...
There is ample evidence that the ongoing climate change has large impacts on the distribution of spe...
Models that couple habitat suitability with demographic processes offer a potentially improved appro...
Climate change and habitat fragmentation are considered key pressures on biodiversity. In this paper...
<div><p>Species may be driven extinct by climate change, unless their populations are able to shift ...
Understanding the ability of species to shift their geographic range is of considerable importance g...
An individual-based model of animal dispersal and population dynamics was used to test the effects o...
A growing number of studies have looked at how climate change alters the effects of habitat fragment...
There is widespread concern that species will fail to track climate change if habitat is too scarce ...
This is the author accepted manuscript. The final version is available from Wiley via the DOI in thi...
Species can either adapt to new conditions induced by climate change or shift their range in an atte...
In response to climate change a species may move, adapt, or go extinct. For the adaptability of a po...
Distributional shifts in species ranges provide critical evidence of ecological responses to climate...
Distributional shifts in species ranges provide critical evidence of ecological responses to climate...
Climate change and habitat destruction are two of the greatest threats to global biodiversity. Latti...
A longstanding question in ecology concerns the prediction of the fate of mountain species under cli...
There is ample evidence that the ongoing climate change has large impacts on the distribution of spe...
Models that couple habitat suitability with demographic processes offer a potentially improved appro...
Climate change and habitat fragmentation are considered key pressures on biodiversity. In this paper...
<div><p>Species may be driven extinct by climate change, unless their populations are able to shift ...
Understanding the ability of species to shift their geographic range is of considerable importance g...
An individual-based model of animal dispersal and population dynamics was used to test the effects o...
A growing number of studies have looked at how climate change alters the effects of habitat fragment...
There is widespread concern that species will fail to track climate change if habitat is too scarce ...
This is the author accepted manuscript. The final version is available from Wiley via the DOI in thi...
Species can either adapt to new conditions induced by climate change or shift their range in an atte...
In response to climate change a species may move, adapt, or go extinct. For the adaptability of a po...
Distributional shifts in species ranges provide critical evidence of ecological responses to climate...
Distributional shifts in species ranges provide critical evidence of ecological responses to climate...
Climate change and habitat destruction are two of the greatest threats to global biodiversity. Latti...
A longstanding question in ecology concerns the prediction of the fate of mountain species under cli...
There is ample evidence that the ongoing climate change has large impacts on the distribution of spe...
Models that couple habitat suitability with demographic processes offer a potentially improved appro...