Climate change is predicted to alter the geographic distribution of a wide variety of taxa, including butterfly species. Research has focused primarily on high latitude species in North America, with no known studies examining responses of taxa in the southeastern United States. The Diana fritillary (Speyeria diana) has experienced a recent range retraction in that region, disappearing from lowland sites and now persisting in two phylogenetically distinct high elevation populations. These findings are consistent with the predicted effects of a warming climate on numerous taxa, including other butterfly species in North America and Europe. We used ecological niche modeling to predict future changes to the distribution of S. diana under sever...
1. The changing climate is altering species distributions with consequences for population dynamics,...
Dragonflies are sensitive to climate change due to their special habitat in aquatic and terrestrial ...
Aim: Niche-based models often ignore spatial variation in the climatic niche of a species across its...
Climate change is predicted to alter the geographic distribution of a wide variety of taxa, includin...
The geographic ranges of most plant and animal species are tied closely to climatic factors, includi...
The combination of climate change and anthropogenic land use changes are having a substantial effect...
We analyse distribution records for 51 British butterfly species to investigate altitudinal and lati...
The Karner blue butterfly (Lycaeides melissa samuelis, or Kbb), a federally endangered species under...
AbstractClimate change is an important factor affecting species dispersal and distribution through t...
One of the most active disciplines in ecology these last years focuses on predicting and understandi...
1. Prediction of species distributions in an altered climate requires knowledge on how global- and l...
One of the most active disciplines in ecology these last years focuses on predicting and understandi...
The interaction between climate change and habitat fragmentation has been presented as a deadly anth...
Climate change can profoundly alter species' distributions due to changes in temperature, precipitat...
<div><p>Climate change can profoundly alter species’ distributions due to changes in temperature, pr...
1. The changing climate is altering species distributions with consequences for population dynamics,...
Dragonflies are sensitive to climate change due to their special habitat in aquatic and terrestrial ...
Aim: Niche-based models often ignore spatial variation in the climatic niche of a species across its...
Climate change is predicted to alter the geographic distribution of a wide variety of taxa, includin...
The geographic ranges of most plant and animal species are tied closely to climatic factors, includi...
The combination of climate change and anthropogenic land use changes are having a substantial effect...
We analyse distribution records for 51 British butterfly species to investigate altitudinal and lati...
The Karner blue butterfly (Lycaeides melissa samuelis, or Kbb), a federally endangered species under...
AbstractClimate change is an important factor affecting species dispersal and distribution through t...
One of the most active disciplines in ecology these last years focuses on predicting and understandi...
1. Prediction of species distributions in an altered climate requires knowledge on how global- and l...
One of the most active disciplines in ecology these last years focuses on predicting and understandi...
The interaction between climate change and habitat fragmentation has been presented as a deadly anth...
Climate change can profoundly alter species' distributions due to changes in temperature, precipitat...
<div><p>Climate change can profoundly alter species’ distributions due to changes in temperature, pr...
1. The changing climate is altering species distributions with consequences for population dynamics,...
Dragonflies are sensitive to climate change due to their special habitat in aquatic and terrestrial ...
Aim: Niche-based models often ignore spatial variation in the climatic niche of a species across its...