Fish isotopic niches associated with environmental indicators and human disturbance along a disturbed large subtropical river in China

Stable isotopes are increasingly used to detect and understand the impacts of environmental changes on riverine ecological properties. The delta C-13 and delta N-15 signatures of fishwith different feeding habits were measured in a large subtropical river to evaluate how fish isotopic niches respond to environmental gradients and human disturbance. From basal resources to fish consumers, the high values of epilithic periphyton (biofilm) delta C-13 and suspended particulate organic matter delta N-15 concurrently determined the niche ranges and space (e.g., convex hull area) of fish communities. Along a longitudinal gradient (except in the industrial zone), the number of fish trophic guilds identified by Bayesian ellipses continuously increased; meanwhile, higher trophic diversity and less redundancy were observed near the lower reaches and estuary. Variance inflation factors were estimated to detect the multicollinearity of 40 environmental variables, 14 of which were selected as indicators. Relative importance (RI) analysis was used to evaluate the explanatory power of these indicators for the spatial variation in isotopic niche metrics; the results showed that riffle habitat area, water nitrate concentration, gravel-cobble substrate, and riparian buffer width were the 4 key environmental indicators (average RI N 12%) that determined the longitudinal pattern of fish isotopic niches. These findings suggested that community-level delta C-13 signatures are more responsive to changes in habitats (e.g., riffle) and substrates (e.g., gravel-cobble) supporting the productivity of autochthonous diatoms while delta N-15 signatures respond to water quality altered by nitrogen pollution from manure-fertilized farming and poultry livestock effluent. Furthermore, delta N-15 may be more robust and interpretable than delta C-13 as an isotopic indicator of ecosystem change in rivers exposed to multiple or complex anthropogenic stressors. (C) 2020 Elsevier B.V. All rights reserved.

Automated summary

Stable isotopes are increasingly used to understand the impacts of environmental changes on riverine ecological properties. The study found that the isotopic niches of fish in rivers are influenced by environmental gradients and human disturbance, with the spatial variation determined by external factors like epilithic periphyton and suspended particulate organic matter.