Diversity anomalies and spatial climate heterogeneity

Aim Diversity anomalies are differences in species richness between areas that belong to different regions but have similar environments. Some hypotheses addressing the origin of well‐known anomalies in plant diversity propose that regions with higher environmental spatial heterogeneity have higher diversity because heterogeneity fosters diversification or coexistence. Arguments supporting these hypotheses emphasize inter‐regional comparisons of diversity and assume that spatial environmental heterogeneity is higher in: (1) eastern A sia ( EA ) than in eastern N orth A merica ( ENA ), (2) western N orth A merica ( WNA ) than in ENA , and (3) the C ape F loristic R egion in southern A frica ( CFR ) than in the S outhwest A ustralian Floristic Region ( SWA ). Here, we evaluate these assumptions by measuring two kinds of environmental heterogeneity – spatially implicit and explicit – each thought to affect diversity via different mechanisms. The former refers to environmental variation among sites within a region, regardless of site location. The latter refers to the spatial pattern of environmental variation across a region (e.g., monotonic or undulating). Location EA , ENA , WNA , CFR and SWA . Methods Multivariate and univariate analyses of spatially implicit and explicit heterogeneity in 17 climatic variables describing central tendency, variation and extremes of temperature and precipitation. Results Multivariate (spatially implicit and explicit) climate heterogeneity is higher in: (1) EA than in ENA , (2) WNA than in ENA , and (3) CFR than in SWA . However, univariate analysis revealed that the regions thought to be most homogeneous ( ENA and SWA ) were actually most heterogeneous in three or four climatic variables, including precipitation during the driest ( ENA ) or wettest ( SWA ) seasons. Main conclusions The overall inter‐regional pattern of spatially implicit and explicit heterogeneity in climate supports the three assumptions listed in the Aim. However, particular climate variables deviate from this overall pattern, implying that hypotheses linking diversity to regional heterogeneity can yield more precise predictions, and thus can be more stringently tested, than previously recognized.