Break the pattern: breakpoints in beta diversity of vertebrates are general across clades and suggest common historical causes

The use of correlative analyses might be insufficient to understand the processes that control biodiversity, because the variables accounting for different hypotheses (e.g. current climate, past climate change, post-glacial dispersal limitation) are mutually correlated. We suggest here that, in order to gain insight, it could be useful to search for latitudinal thresholds that could provide information about qualitative changes in the way biodiversity varies in space. Such tipping points could inform about higher-level processes that are not reflected in correlative analyses. We test whether similar breakpoints in latitudinal beta-diversity patterns exist for different vertebrate groups with diverse life histories and dispersal abilities. In birds, bats and non-volant mammals we find breakpoints similar to those of amphibians. Differences in species composition are mainly due to species replacement from the equator to the breakpoint, but are dominated by nested species losses from the breakpoint to higher latitudes. Thus, marked thresholds discriminate two world regions where different processes appear to drive biodiversity.