Ecological niche models and species distribution models (ENM and SDM, respectively) are tools that have seen massive use and considerable improvement during the last twenty years. The choice of calibration areas for such models has strong effects on model outcomes and model interpretation, as well as on model transfer to distinct environmental settings. However, approaches to selecting these areas remain simple and/or unlinked to biological concepts. Such models should be calibrated within areas that the species of interest has explored throughout its recent history, the accessible area (M). In this paper, we provide a simulation approach for estimating a species’ M considering processes of dispersal, colonization, and extinction in constan...
Species distribution modelling methods are used for a variety of applications including: to assess c...
Over the past decade, species distribution models (SDMs) have become an indispensable item in the ec...
International audienceGlobal biodiversity declines, largely driven by climate and land‐use changes, ...
Ecological niche models and species distribution models (ENM and SDM, respectively) are tools that h...
Understanding the causes of spatial variation in species richness is a major research focus of bioge...
Software for 1-dimensional plots of species' responses to environment, and for MOP calculations.A co...
Ecological niche modeling (ENM) is used widely to study species’ geographic distributions. ENM appli...
In past decades, a variety of statistical techniques have been used and developed to predict species...
Species distribution models (SDMs) are one of the most important GIScience research areas in biogeog...
In the last two decades, interest in species distribution models (SDMs) of plants and animals has gr...
Climate change and concomitant urbanization have led to many species shifting their geographical dis...
The most conspicuous pattern in biogeogeraphy is the increase in number of species (species richness...
Species distribution modeling (SDM) is an increasingly important tool to predict the geographic dist...
Aim: Species distribution models (SDMs) generally use correlative relationships between the species ...
Species distribution models (SDM) have been proposed as valuable first screening tools for predictin...
Species distribution modelling methods are used for a variety of applications including: to assess c...
Over the past decade, species distribution models (SDMs) have become an indispensable item in the ec...
International audienceGlobal biodiversity declines, largely driven by climate and land‐use changes, ...
Ecological niche models and species distribution models (ENM and SDM, respectively) are tools that h...
Understanding the causes of spatial variation in species richness is a major research focus of bioge...
Software for 1-dimensional plots of species' responses to environment, and for MOP calculations.A co...
Ecological niche modeling (ENM) is used widely to study species’ geographic distributions. ENM appli...
In past decades, a variety of statistical techniques have been used and developed to predict species...
Species distribution models (SDMs) are one of the most important GIScience research areas in biogeog...
In the last two decades, interest in species distribution models (SDMs) of plants and animals has gr...
Climate change and concomitant urbanization have led to many species shifting their geographical dis...
The most conspicuous pattern in biogeogeraphy is the increase in number of species (species richness...
Species distribution modeling (SDM) is an increasingly important tool to predict the geographic dist...
Aim: Species distribution models (SDMs) generally use correlative relationships between the species ...
Species distribution models (SDM) have been proposed as valuable first screening tools for predictin...
Species distribution modelling methods are used for a variety of applications including: to assess c...
Over the past decade, species distribution models (SDMs) have become an indispensable item in the ec...
International audienceGlobal biodiversity declines, largely driven by climate and land‐use changes, ...
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