Contribution of environmental and spatial factors to the structure of stream fish assemblages at different spatial scales

To compare the contributions of environmental and spatial factors in structuring assemblages of temperate stream fish on different spatial scales, I evaluated the distance decay of fish assemblage similarity and correlations among species compositions, environmental factors and geographical location...

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Bibliographic Details
Published in:Ecology of freshwater fish 2014-04, Vol.23 (2), p.208-223
Main Author: Nakagawa, Hikaru
Format: Article
Language:English
Subjects:
dispersal process
environmental factors
fish
habitat selection
hierarchical river structures
microhabitats
scale dependency
source-sink dynamics
species diversity
variance
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Summary:To compare the contributions of environmental and spatial factors in structuring assemblages of temperate stream fish on different spatial scales, I evaluated the distance decay of fish assemblage similarity and correlations among species compositions, environmental factors and geographical locations at medium (inter‐reach scale, spatial extent 40 km) and fine (inter‐microhabitat scale, spatial extent 10‐km scale, and the assemblage structure was simply explained by the distance between sites and several environmental factors (e.g., elevation and current velocity). In contrast, the distance between microhabitats explained only a small portion of the variance in species composition at the fine scale, and fish assemblages were affected by several spatial patterns of habitat (or some environmental features associated with those spatial patterns). Environmental factors at the fine scale (e.g., substratum characteristics and presence/absence of cover) correlated with each other and were spatially structured, and their contribution to species variance was smaller than that at the medium scale. These results provide evidence for scale‐dependent alternation of the rank of the relative importance of environmental and spatial factors in structuring assemblages of stream fishes via the turnover of crucially contributing factors from medium to fine spatial scales.
ISSN:0906-6691
1600-0633
DOI:10.1111/eff.12070