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8039905 
Journal Article 
Riverine networks constrain beta-diversity patterns among fish assemblages in a large Neotropical river 
Vitorino Junior, OB; Fernandes, R; Agostinho, CS; Pelicice, FM 
2016 
Yes 
Freshwater Biology
ISSN: 0046-5070
EISSN: 1365-2427 
61 
10 
1733-1745 
WOS:000386021300010 
1. Riverine metacommunities have been studied mainly in streams and headwaters, and little is known about how dendritic networks affect metacommunity structure in large river systems. We, therefore, examined fish assemblages in the Upper Tocantins River, Amazon Basin, to investigate the hypothesis that riverine networks constrain metacommunity structure. In particular, we investigated (i) taxonomic and functional beta-diversity along the river channel (main stem) and major tributaries (branches); (ii) the relative importance of the turnover and nestedness components; and (iii) the relationship between beta-diversity and spatial structure (the distance decay of similarity). 2. Fish assemblages were sampled over a year (2007-2008) at 17 sites distributed along the main stem (n = 8) and branches (n = 9). We recorded 170 fish species in the 100-km river section studied. Local species richness ranged from 45 to 79, with higher mean values in the main stem; local assemblages, however, showed high functional richness, with no significant difference between the main stem and branches. 3. We observed that the turnover component contributed 87.7% of the variation in taxonomic beta-diversity (Jaccard), while the nestedness-resultant contributed 12.3%. Taxonomic beta-diversity was on average 2.5 times higher than functional diversity, and taxonomic turnover was on average four times greater than functional turnover. In addition, a null model showed that observed values of functional beta-diversity were not different from random expectations, given the observed level of taxonomic beta-diversity. Branches showed higher species turnover, while significant distance decay of similarity was observed only along the main stem. Functional beta-diversity was not different between the main stem and branches and did not correlate with watercourse distance. 4. Our study revealed that fish metacommunity in this large river shows species turnover, but with high functional similarity. In addition, different beta-diversity patterns between the main stem and branches indicate that the dendritic network constrained metacommunity structure. Mass effects and dispersal limitations probably explain beta-diversity patterns in the main stem, while a combination of mechanisms (i.e., disturbance, specific biological functions and dispersal constraints) affect diversity in the branches. 
dispersal; functional diversity; metacommunity; species sorting; species turnover