Using in situ bacterial communities to monitor contaminants in river sediments

Bacterial communities in sediments of human-impacted rivers are exposed to multiple anthropogenic contaminants and eventually lead to biodiversity lost and ecological functions disable. Nanfei River of Anhui province has been contaminated by pollutants from industrial and/or agricultural sources. This study was conducted to investigate the structure of in situ sediment bacterial communities in Nanfei River and to examine the correlation between the different taxonomic components and contaminant concentrations. The bacterial communities were dominated by Proteobacteria, Bacteroidetes and Chloroflexi. Both the profiles of environmental predictors and the composition of microbial communities differed among agriculture, industrial and confluence regions. There were significant associations between bacterial community phylogenies and the measured contaminants in the sediments. Nutrients (TN and TP) and two metals (Cd and Zn) were negatively correlated with the essential “core” of the bacterial interaction network (Betaproteobacteria and Deltaproteobacteria). Metals (Fe, Ni and Zn) and nutrients (TN and TP) had higher impact on bacterial community compositions than PAHs, OPs and PRTs according to the correlation and network analyses. Furthermore, several sensitive candidate genera were identified as potential bioindicators to monitor key contaminants by species contaminant correlation analysis. Overall, in situ bacterial communities could provide a useful tool for monitoring and assessing ecological stressors in freshwater sediments. •Both the profiles of environmental predictors and the composition of microbial communities differed among agriculture, industrial and confluence regions.•Nutrients (TN and TP) and two metals (Cd and Zn) were negatively correlated with the essential “core” of the bacterial interaction network (Betaproteobacteria and Deltaproteobacteria).•Metals and nutrients were identified as key stressor to affect sediment bacterial community.•Several bacterial individuals were discovered as potential bioindicators for key contaminants monitoring. Components and structures of in situ sediment bacterial communities can be used to monitor the key stressors among multiple pollutants of freshwater river ecosystem.