Understanding what determines species' geographic distributions is crucial for assessing global change threats to biodiversity. Measuring limits on distributions is usually, and necessarily, done with data at large geographic extents and coarse spatial resolution. However, survival of individuals is determined by processes that happen at small spatial scales. The relative abundance of coexisting species (i.e. 'community structure') reflects assembly processes occurring at small scales, and are often available for relatively extensive areas, so could be useful for explaining species distributions. We demonstrate that Bayesian Network Inference (BNI) can overcome several challenges to including community structure into studies of species dist...
As a discipline, community ecology emphasizes a cluster of related questions: what processes cause s...
The species abundance distribution (SAD) is one of the few universal patterns in ecology. Research o...
Biotic interactions are important drivers shaping communities and their net effect can be difficult ...
Understanding what determines species' geographic distributions is crucial for assessing global chan...
International audienceThe study of species co-occurrences has been central in community ecology sinc...
Ecologists and conservation biologists have historically used species–area and distance–decay relati...
International audienceConvolutional Neural Networks (CNNs) are statistical models suited for learnin...
1. Biogeographical models of species' distributions are essential tools for assessing impacts of cha...
Convolutional Neural Networks (CNNs) are statistical models suited for learning complex visual patte...
Growing interest in biodiversity mapping has spurred the development of species distribution atlases...
Species abundance distributions (SADs) describe community structure and are a key component of biodi...
Abstract The species abundance distribution (SAD) depicts the relative abundance of species within a...
Aim: Species distribution models are increasingly used to predict the impacts of global change on wh...
A key focus in ecology is to search for community assembly rules. Here we compare two community mode...
As a discipline, community ecology emphasizes a cluster of related questions: what processes cause s...
The species abundance distribution (SAD) is one of the few universal patterns in ecology. Research o...
Biotic interactions are important drivers shaping communities and their net effect can be difficult ...
Understanding what determines species' geographic distributions is crucial for assessing global chan...
International audienceThe study of species co-occurrences has been central in community ecology sinc...
Ecologists and conservation biologists have historically used species–area and distance–decay relati...
International audienceConvolutional Neural Networks (CNNs) are statistical models suited for learnin...
1. Biogeographical models of species' distributions are essential tools for assessing impacts of cha...
Convolutional Neural Networks (CNNs) are statistical models suited for learning complex visual patte...
Growing interest in biodiversity mapping has spurred the development of species distribution atlases...
Species abundance distributions (SADs) describe community structure and are a key component of biodi...
Abstract The species abundance distribution (SAD) depicts the relative abundance of species within a...
Aim: Species distribution models are increasingly used to predict the impacts of global change on wh...
A key focus in ecology is to search for community assembly rules. Here we compare two community mode...
As a discipline, community ecology emphasizes a cluster of related questions: what processes cause s...
The species abundance distribution (SAD) is one of the few universal patterns in ecology. Research o...
Biotic interactions are important drivers shaping communities and their net effect can be difficult ...