One of the most promising recent advances in biogeography has been the increased interest and understanding of species distribution models – estimates of the probability that a species is present given environmental data. Unfortunately, such analyses ignore many aspects of ecology, and so are difficult to interpret. In particular, we know that species interactions have a profound influence on distributions, but it is not usually possible to incorporate this knowledge into species distribution models. What is needed is a rigorous understanding of how unmeasured biotic interactions affect the inferences generated by species distribution models. To fill this gap, we develop a general mathematical approach that uses probability theory to determ...
International audienceWhether species interactions influence species response to environment and spe...
International audienceSpecies distribution models (SDMs) have been widely used in ecology, biogeogra...
A major problem in ecology is to understand how environmental requirements change over space and tim...
A fundamental goal of ecology is to understand the determinants of species' distributions (i.e., the...
One of the key problems in ecology is our need to anticipate the set of locations in which a species...
Predicting changes in species’ distributions is a crucial problem in ecology, with leading methods a...
Aim Recent studies increasingly use statistical methods to infer biotic interactions from co-occurre...
Understanding the factors that determine species’ geographic distributions is important for addressi...
There is a great deal of interest in the effects of biotic interactions on geographic distributions....
The study of species co-occurrences has been central in community ecology since the foundation of th...
Biogeography is primarily concerned with the spatial distribution of biodiversity, including perform...
Most species distribution models (SDMs) assume that habitats are closed, stable and without competit...
Species distribution models are a key tool in predicting and projecting population changes in the pa...
Hutchinson defined species' realized niche as the set of environmental conditions in which populatio...
Environmental change is expected to shift the geographic range of species and communities. To estima...
International audienceWhether species interactions influence species response to environment and spe...
International audienceSpecies distribution models (SDMs) have been widely used in ecology, biogeogra...
A major problem in ecology is to understand how environmental requirements change over space and tim...
A fundamental goal of ecology is to understand the determinants of species' distributions (i.e., the...
One of the key problems in ecology is our need to anticipate the set of locations in which a species...
Predicting changes in species’ distributions is a crucial problem in ecology, with leading methods a...
Aim Recent studies increasingly use statistical methods to infer biotic interactions from co-occurre...
Understanding the factors that determine species’ geographic distributions is important for addressi...
There is a great deal of interest in the effects of biotic interactions on geographic distributions....
The study of species co-occurrences has been central in community ecology since the foundation of th...
Biogeography is primarily concerned with the spatial distribution of biodiversity, including perform...
Most species distribution models (SDMs) assume that habitats are closed, stable and without competit...
Species distribution models are a key tool in predicting and projecting population changes in the pa...
Hutchinson defined species' realized niche as the set of environmental conditions in which populatio...
Environmental change is expected to shift the geographic range of species and communities. To estima...
International audienceWhether species interactions influence species response to environment and spe...
International audienceSpecies distribution models (SDMs) have been widely used in ecology, biogeogra...
A major problem in ecology is to understand how environmental requirements change over space and tim...