Abstract
Understanding the main processes that affect community similarity have been the focus of much ecological research. However, the relative effects of environmental and spatial aspects in structuring ecological communities is still unresolved and is probably scale-dependent. Here, we examine the effect of habitat identity and spatial distance on fine-grained community similarity within a biogeographic transition zone. We compared four hypotheses: i) habitat identity alone, ii) spatial proximity alone, iii) non-interactive effects of both habitat identity and spatial proximity, and iv) interactive effect of habitat identity and spatial proximity. We explored these hypotheses for spiders in three fragmented landscapes located along the sharp climatic gradient of Southern Judea Lowlands (SJL), Israel. We sampled 14,854 spiders (from 199 species or morphospecies) in 644 samples, taken in 35 patches and stratified to nine different habitats. We calculated the Bray-Curtis similarity between all samples-pairs. We divided the pairwise values to four functional distance categories (same patch, different patches from the same landscape, adjacent landscapes and distant landscapes) and two habitat categories (same or different habitats) and compared them using non-parametric MANOVA. A significant interaction between habitat identity and spatial distance was found, such that the difference in mean similarity between same-habitat pairs and different-habitat pairs decreases with spatial distance. Additionally, community similarity decayed with spatial distance. Furthermore, at all distances, same-habitat pairs had higher similarity than different-habitats pairs. Our results support the fourth hypothesis of interactive effect of habitat identity and spatial proximity. We suggest that the environmental complexity of habitats or increased habitat specificity of species near the edge of their distribution range may explain this pattern. Thus, in transitions zones care should be taken when using habitats as surrogate of community composition in conservation planning since similar habitats in different locations are more likely to support different communities.
Highlights
Disentangling the effects of niche-based and dispersal-based processes in structuring ecological communities have challenged ecologists for the last few decades [1, 2]
Classic ecological theory posits that fine-scale community composition is mainly affected by niche-based processes that relate to direct interactions between individuals/species
In Southern Judea Lowlands (SJL), the community composition at any given sample is affected by the habitat in which the sample was taken, as evident by the effect of habitat identity on community similarity (Figs 3 and 4)
Summary
Disentangling the effects of niche-based and dispersal-based processes in structuring ecological communities have challenged ecologists for the last few decades [1, 2]. The ability of species to cope with interspecific interactions (e.g., competition, predation and facilitation) in a local community involves multiple trade-offs, which are often dependent on the environmental context [4]. The outcome of such interspecific interactions are mediated by resource partitioning and habitat preferences [5]. When grain size increase even more, aspects relating to species’ fundamental niches are dominant as species are filtered according to their evolutionary physiological limits [7, 8] At this scale, dispersal limitations will become less important in structuring ecological communities
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