Linking beta diversity patterns to protected areas: lessons from the Brazilian Atlantic Rainforest

Abstract

Understanding the processes that drive patterns of beta diversity is crucial for planning conservation policies and for designing networks of protected area (PAs). Beta diversity can be decomposed into two components: 1—species turnover, the replacement of species by others resulting in a low proportion of shared species; 2—species nestedness—the result of differences in species richness, when a poorer community is a subset of species from a richer community. We aimed to evaluate beta diversity patterns and how they are represented in the network of PAs in southern Brazilian, regarding three forest types: Atlantic Forest s.s., Araucaria Forest, and Seasonal Forest. Beta diversity was partitioned into the turnover and nestedness components. Additionally, we examined spatial patterns of site similarity using distance decay curves. Beta diversity was mainly caused by species turnover (approx. 86%), with only a small contribution of nestedness (approx. 5%) in all three forests types. The patterns of distance decay curves revealed that even at small distances (50–100 km), we found a considerable decrease in similarities, reinforcing turnover patterns. As turnover brought the larger contribution to beta diversity, additional conservation efforts must target an increase in the number of PAs, that should be spread across each one of the regions, to maximize the protection of species diversity. Most of the PAs are currently limited to the eastern region and prioritize the Atlantic Forest s.s. Thus Araucaria Forest and Seasonal Forest should deserve special priority in new conservation actions, as they also contain high levels of species turnover.