Metacommunity structure analysis reveals nested patterns in deconstructed macroinvertebrates assemblages

Abstract

Understanding processes driving patterns of species distribution and diversity is one of the main objectives of community ecology. The aim of our study was to evaluate the spatial variation in assemblage composition of stream‐dwelling macroinvertebrates and identify which factors (e.g. water quality, land cover) are the most important drivers. We applied the elements of the metacommunity structure approach on a dataset of 38 communities from the Futaleufú basin in northwestern Patagonia. To better understand assemblage variation, we deconstructed our macroinvertebrate dataset into different taxonomic and trait groups. We then identified the most influential factors driving community composition using random forests. We found that half of our datasets (i.e. macroinvertebrate groups) exhibited a nested structure with clumped species loss, while the other half showed a quasi‐nested pattern with either clumped or stochastic species loss. Overall, water quality was the most important driver of community variation, although climate, geography, and land cover were more or less relevant in particular cases. We found differences in the relative importance of the selected explanatory variables among datasets. This would suggest that different components of the macroinvertebrate community respond differently to environmental factors. Our findings could be of value for conservation planning, as they suggest that preserving the most species‐rich streams would, to some extent, guarantee the conservation of the entire species pool.