Abstract
Biological communities are composed of a few common and many rare species. An understanding of the mechanisms that govern the distribution of these species is fundamental to knowledge regarding community ecology. Our hypothesis is that chironomid larvae follow a nested distribution in relation to hydrological periods in Neotropical floodplain lakes, whereby the flood period composition is a subset of the drought periods with a predominance of common species. We collected samples from 18 lakes in 2011 in a flood month and three drought months. The community followed a nested distribution where the spatial factors were more important for rare and common species during the flood and for the common species during all months. Thus, with the increasing connectivity and similarity of environments during the flood, neutral processes, as the dispersal, would govern the community. Conversely, environmental factors were more important for rare species in the drought, which suggest that these species are more specialists, largely influenced by niche-related processes. Thus, our study emphasizes the complexity of biological communities specifically concerning how environmental, spatial, and temporal factors influence community dynamics among species groups.
Published Version
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