Species distribution model (SDM) projections under future climate scenarios are increasingly being used to inform resource management and conservation strategies. A critical assumption for projecting climate change responses is that SDMs are transferable through time, an assumption that is largely untested because investigators often lack temporally independent data for assessing transferability. Further, understanding how the ecology of species influences temporal transferability is critical yet almost wholly lacking. This raises two questions. (1) Are SDM projections transferable in time? (2) Does temporal transferability relate to species ecological traits? To address these questions we developed SDMs for 133 vascular plant species using...
While biological distributions are not static and change/evolve through space and time, nonstationar...
Improved estimation of climate niches is critical, given climate change. Plant adaptation to climate...
Recent studies suggest that species distribution models (SDMs) based on fine-scale climate data may ...
Correlative species distribution models (SDMs) are widely used in studies of climate change impacts,...
Climate change is threatening biota all over the world through dictating changes in species distribu...
The usefulness of species distribution models (SDMs) in predicting impacts of climate change on biod...
The usefulness of species distribution models (SDMs) in predicting impacts of climate change on biod...
Aim: The distributions of many organisms are spatially autocorrelated, but it is unclear whether inc...
<div><p>Conservation planners often wish to predict how species distributions will change in respons...
Predictions from species distribution models (SDMs) are commonly used in support of environmental de...
Conservation planners often wish to predict how species distributions will change in response to env...
Species distribution models (SDMs) are commonly used to forecast climate change impacts on species a...
Aim: Species distribution models (SDMs) are currently the most widely used tools in ecology for eval...
Our understanding of how species will respond to global change is still limited. Species distributio...
Aim: The rate and magnitude of climate‐induced tree range shifts may be influenced by range‐wide var...
While biological distributions are not static and change/evolve through space and time, nonstationar...
Improved estimation of climate niches is critical, given climate change. Plant adaptation to climate...
Recent studies suggest that species distribution models (SDMs) based on fine-scale climate data may ...
Correlative species distribution models (SDMs) are widely used in studies of climate change impacts,...
Climate change is threatening biota all over the world through dictating changes in species distribu...
The usefulness of species distribution models (SDMs) in predicting impacts of climate change on biod...
The usefulness of species distribution models (SDMs) in predicting impacts of climate change on biod...
Aim: The distributions of many organisms are spatially autocorrelated, but it is unclear whether inc...
<div><p>Conservation planners often wish to predict how species distributions will change in respons...
Predictions from species distribution models (SDMs) are commonly used in support of environmental de...
Conservation planners often wish to predict how species distributions will change in response to env...
Species distribution models (SDMs) are commonly used to forecast climate change impacts on species a...
Aim: Species distribution models (SDMs) are currently the most widely used tools in ecology for eval...
Our understanding of how species will respond to global change is still limited. Species distributio...
Aim: The rate and magnitude of climate‐induced tree range shifts may be influenced by range‐wide var...
While biological distributions are not static and change/evolve through space and time, nonstationar...
Improved estimation of climate niches is critical, given climate change. Plant adaptation to climate...
Recent studies suggest that species distribution models (SDMs) based on fine-scale climate data may ...