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Understanding how river network position (RNP) shapes biodiversity patterns is critical for unraveling metacommunity assembly mechanisms in riverine ecosystems. However, the influence of RNP on the replacement and nestedness components of beta diversity remains underexplored. Here, we examined benthic macroinvertebrates and diatoms across six tributaries of the upper Jinsha River on the Tibetan Plateau, China. RNP was quantified using river order, upstream drainage area and three graph-theoretical metrics: betweenness, closeness and Harary centrality. Beta diversity was assessed using Local Contributions to Beta Diversity (LCBD), with three indices calculated: LCBD Total (overall compositional uniqueness), LCBD Rep (species replacement) and LCBD Nes (species nestedness). Our results revealed that LCBD Total and LCBD Rep of benthic macroinvertebrates and diatoms decreased as betweenness centrality increased, while LCBD Nes remained unaffected. Moreover, environmental variables including water depth and flow velocity also significantly influenced LCBD Total and LCBD Rep . Turbidity significantly affected LCBD Total of both macroinvertebrates and diatoms, whereas total nitrogen affected only LCBD Total of diatoms. We further found that the joint effects of betweenness centrality and important environmental variables on LCBD Total and LCBD Rep exceeded their independent effects, indicating that RNP captures not only spatial configuration but also underlying environmental variation along the river network. Additionally, river sites with low betweenness centrality, <800 for diatoms and <1710 for benthic macroinvertebrates, emerged as critical nodes structuring community composition. Our findings highlight that RNP simultaneously governs metacommunity assembly through dispersal connectivity and habitat filtering, thereby underscoring the need to integrate network topology into strategies for conserving biodiversity in dendritic river systems.
Zhou et al. (Tue,) studied this question.