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Changes in distance decay relationships after river regulation: similarity among fish assemblages in a large A mazonian river
Author(s) -
Araújo Ercilia S.,
Marques Elineide E.,
Freitas Iriene S.,
Neuberger Andréa L.,
Fernandes Rodrigo,
Pelicice Fernando M.
Publication year - 2013
Publication title -
ecology of freshwater fish
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.667
H-Index - 55
eISSN - 1600-0633
pISSN - 0906-6691
DOI - 10.1111/eff.12054
Subject(s) - dominance (genetics) , distance decay , species richness , ordination , fish <actinopterygii> , similarity (geometry) , ecology , abundance (ecology) , geographical distance , geography , environmental science , hydrology (agriculture) , biology , fishery , geology , demography , biochemistry , population , geotechnical engineering , artificial intelligence , sociology , gene , computer science , image (mathematics)
The construction of large dams has changed natural hydrology of many rivers in S outh A merica. Considering that little is known about the reorganisation of nonmigratory fish assemblages following an impoundment, we investigated changes caused by the construction of L ajeado D am on the spatial distribution of nonmigratory fish along the T ocantins R iver, a large A mazonian river. In particular, we investigated changes in distance decay of community similarity (initial similarity and halving distance) in periods that preceded and followed the construction of the dam. For this study, we analysed data collected over a four‐year period, including seven sites distributed along the Tocantins River (~270 km). Initial similarity showed high values and little variation over the years. Halving distance, on the other hand, changed considerably after impoundment, showing progressive smaller values. In the first 2 years after impoundment, halving distance decreased by more than half of the initial value, indicating changes in distance decay relationships. An ordination analysis nonmetric multidimensional scaling ( NMDS ) indicated substantial changes in assemblage structure between pre‐ and postimpoundment periods, especially in sites close to the dam. In addition, after river regulation, we recorded shifts in species abundance across sites, while numerical dominance increased and local richness decreased in sites near the dam. Our results indicate that the dam changed diversity gradients along the river corridor, increasing the distance decay of assemblage similarity. All these findings evidence that nonmigratory fish assemblages are particularly vulnerable to river regulation.

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