Abstract
Metabolism and climate are thought to influence species richness and diversification, yet few studies have examined whether global patterns of metabolic traits are linked to climate and diversification rate. Here we investigate the drivers of global metabolic rates and their impacts on biodiversity across 2,633 amniote vertebrates. We found consistent distribution patterns of metabolic rates in terrestrial amniotes and marine birds, with metabolic rates increasing with distance from the equator across latitudes. Temperature is a primary climatic variable affecting metabolic rates in birds and mammals, whereas precipitation dominates in terrestrial reptiles. Furthermore, elevated metabolic rates promote diversification rates and reduce extinction risks in birds and terrestrial mammals. Conversely, high metabolic rates decrease diversification rates and increase extinction risks in reptiles. Our results show that global patterns of metabolic rates are driven by various climate variables and may shape diversification and extinction patterns among amniotes in the context of climate change.
Competing Interest Statement
The authors have declared no competing interest.