Temporally robust occupancy frequency distributions in riverine ecosystems explained by local biodiversity regulation

Abstract

AbstractThe distribution of species’ site occupancy—the occupancy frequency distribution (OFD)—is a fundamental pattern in spatial ecology. Despite decades of research, the mechanisms responsible for the shape of the distribution remain incompletely understood. Here, we simultaneously examine both spatial and temporal patterns of site occupancy in communities of macroinverterbrates, macrophytes and diatoms. We find that the shape of the OFD at the catchment scale is typically time invariant despite substantial turnover in composition and species’ proportional occupancy over the 30 year time series. This can been seen as evidence in favour of an ecological mechanism for the shape of the OFD driven by local regulation of species richness and other biodiversity properties. We show that a simple, locally saturated patch occupancy model explains both the shape of the OFD and the temporal turnover rate in English rivers. This model is mathematically analogous to Hubbell’s neutral theory however concerns patches occupied by a given species rather its population size. Our analysis supports the view that metacommunities exist in a dynamic steady state arising from local ecological constraints and that this intrinsic regulation can drives the emergence of a wide variety of macroecological patterns. We also show that interspecific differences are unlikely to play a dominant role in driving large scale ecosystem structure.