Uncertainty in estimating fish trophic positions and food web structure in highly polluted river basins

Tributaries greatly influence the supply of organic matter to large rivers. In this study, we used carbon (ẟ 13 C) and nitrogen (ẟ 15 N) stable isotopes to assess if organic matter from tributaries with different 15 N compositions influenced the food webs of downstream fish assemblages. In addition, we aimed to evaluate if estimates of fish trophic position (TP) are influenced by 15 N-depleted and 15 N-enriched baselines. We compared the food web of a fish assemblage upstream from tributaries (control site), with food webs downstream from 15 N-depleted (site 1) and 15 N-enriched tributaries (site 2). Fishes and resources collected from sites 1 and 2 had significant differences in ẟ 15 N composition ( 15 N-depleted and 15 N-enriched, respectively) relative to their conspecifics from the control site. At the control site, fish species’ TPs were more reliable and realistic based on their known feeding ecology, with TPs ranging between 2 and 3. In contrast, fish TPs at sites 1 and 2 ranged between 2 and 6, and no consistency was observed among trophic guilds. We conclude that tributaries exert a great influence on fish food webs at downstream sites, either by direct assimilation of organic matter by consumers, or by assimilation of the dissolved inorganic nitrogen by primary producers. In addition, fishes under influence of pollution may exhibit an inaccurate representation of their TP, drawing attention to possible source of bias for TP estimates, and consequently, in the food web structure of nitrogen-polluted areas.