Aim: Explore the spatial variation of the relationships between species richness (SR), phylogenetic diversity (PD) and environmental factors to infer the possible mechanisms underlying patterns of diversity in different regions of the globe. Location: Global. Time period: Present day. Major taxa studied: Terrestrial mammals. Methods: We used a hexagonal grid to map SR and PD of mammals and four environmental factors (temperature, productivity, elevation and climate-change velocity since the Last Glacial Maximum). We related those variables through direct and indirect pathways using a novel combination of Path Analysis and Geographically Weighted Regression to account for spatial non-stationarity of path coefficients. Results: SR, PD and env...
Life on Earth is conspicuously more diverse in the tropics. Although this intriguing geographical pa...
Environmental gradients (EG) related to climate, topography and vegetation are among the most import...
International audienceIn analogy to the species-area relationship (SAR), one of the few laws in ecol...
Different hypotheses (geographic, ecological, evolutionary or a combination of them) have been sugge...
<div><p>The latitudinal diversity gradient has been considered a consequence of a shift in the impac...
Within most terrestrial groups of animals, including mammals, species richness varies along two axes...
Aim: To evaluate how environment and evolutionary history interact to influence global patterns of m...
Aim: To define biome-scale hotspots of phylogenetic and functional mammalian biodiversity (PD and FD...
The taxonomic, phylogenetic and trait dimensions of betadiversity each provide unique insight into t...
Broad-scale geographic gradients in species richness have now been extensively documented, but their...
Aim: To evaluate how environment and evolutionary history interact to influence global patterns of m...
Aim: It is widely accepted that biodiversity can be determined by niche-relate processes and by pure...
Life on Earth is conspicuously more diverse in the tropics. Although this intriguing geographical pa...
Environmental gradients (EG) related to climate, topography and vegetation are among the most import...
International audienceIn analogy to the species-area relationship (SAR), one of the few laws in ecol...
Different hypotheses (geographic, ecological, evolutionary or a combination of them) have been sugge...
<div><p>The latitudinal diversity gradient has been considered a consequence of a shift in the impac...
Within most terrestrial groups of animals, including mammals, species richness varies along two axes...
Aim: To evaluate how environment and evolutionary history interact to influence global patterns of m...
Aim: To define biome-scale hotspots of phylogenetic and functional mammalian biodiversity (PD and FD...
The taxonomic, phylogenetic and trait dimensions of betadiversity each provide unique insight into t...
Broad-scale geographic gradients in species richness have now been extensively documented, but their...
Aim: To evaluate how environment and evolutionary history interact to influence global patterns of m...
Aim: It is widely accepted that biodiversity can be determined by niche-relate processes and by pure...
Life on Earth is conspicuously more diverse in the tropics. Although this intriguing geographical pa...
Environmental gradients (EG) related to climate, topography and vegetation are among the most import...
International audienceIn analogy to the species-area relationship (SAR), one of the few laws in ecol...