Despite being a fundamental aspect of biodiversity, little is known about what controls species range sizes. This is especially the case for hyperdiverse organisms such as plants. We use the largest botanical data set assembled to date to quantify geographical variation in range size for ~ 85 000 plant species across the New World. We assess prominent hypothesised range-size controls, finding that plant range sizes are codetermined by habitat area and long- and short-term climate stability. Strong short- and long-term climate instability in large parts of North America, including past glaciations, are associated with broad-ranged species. In contrast, small habitat areas and a stable climate characterise areas with high concentrat...
International audienceAim Bioclimatic envelope models are often used to make projections of species'...
Aim: Correlative species distribution models (SDMs) are among the most frequently used tools for con...
Earth is changing rapidly and so are many plant species’ ranges. Here, we synthesize eco-evolutionar...
Despite being a fundamental aspect of biodiversity, little is known about what controls species rang...
Despite being a fundamental aspect of biodiversity, little is known about what controls species rang...
Despite being a fundamental aspect of biodiversity, little is known about what controls species rang...
This research seeks to advance our understanding of how to make better informed species conservation...
Recent studies suggest that species distribution models (SDMs) based on fine-scale climate data may ...
Aim: Understanding the factors that govern species' geographical ranges is of utmost importance for ...
Background: Elucidating the determinants of species’ geographic distributions is a fundamental goal ...
Aim Relationships between range size and species richness are contentious, yet they are key to testi...
Understanding the determinants of range location and size is fundamental to our understanding of spa...
ArticleCopyright © 2015 John Wiley & Sons LtdAim Understanding the factors that govern species’ geog...
It has been more than two centuries since the latitudinal pattern of increase in taxonomic richness ...
Species with broader niches may have the opportunity to occupy larger geographic areas, assuming no ...
International audienceAim Bioclimatic envelope models are often used to make projections of species'...
Aim: Correlative species distribution models (SDMs) are among the most frequently used tools for con...
Earth is changing rapidly and so are many plant species’ ranges. Here, we synthesize eco-evolutionar...
Despite being a fundamental aspect of biodiversity, little is known about what controls species rang...
Despite being a fundamental aspect of biodiversity, little is known about what controls species rang...
Despite being a fundamental aspect of biodiversity, little is known about what controls species rang...
This research seeks to advance our understanding of how to make better informed species conservation...
Recent studies suggest that species distribution models (SDMs) based on fine-scale climate data may ...
Aim: Understanding the factors that govern species' geographical ranges is of utmost importance for ...
Background: Elucidating the determinants of species’ geographic distributions is a fundamental goal ...
Aim Relationships between range size and species richness are contentious, yet they are key to testi...
Understanding the determinants of range location and size is fundamental to our understanding of spa...
ArticleCopyright © 2015 John Wiley & Sons LtdAim Understanding the factors that govern species’ geog...
It has been more than two centuries since the latitudinal pattern of increase in taxonomic richness ...
Species with broader niches may have the opportunity to occupy larger geographic areas, assuming no ...
International audienceAim Bioclimatic envelope models are often used to make projections of species'...
Aim: Correlative species distribution models (SDMs) are among the most frequently used tools for con...
Earth is changing rapidly and so are many plant species’ ranges. Here, we synthesize eco-evolutionar...