PT - JOURNAL ARTICLE AU - Carles, Louis AU - Wullschleger, Simon AU - Joss, Adriano AU - Eggen, Rik I.L. AU - Schirmer, Kristin AU - Schuwirth, Nele AU - Stamm, Christian AU - Tlili, Ahmed TI - Wastewater microorganisms impact microbial diversity and important ecological functions of stream periphyton AID - 10.1101/2022.04.27.489724 DP - 2022 Jan 01 TA - bioRxiv PG - 2022.04.27.489724 4099 - http://biorxiv.org/content/early/2022/04/28/2022.04.27.489724.short 4100 - http://biorxiv.org/content/early/2022/04/28/2022.04.27.489724.full AB - Wastewater treatment plant effluents can impact microbial communities in receiving streams. However, little is known about the role of microorganisms in wastewater as opposed to other wastewater constituents, such as nutrients and micropollutants. We aimed therefore at determining the impact of wastewater microorganisms on the microbial diversity and function of periphyton, key microbial communities in streams. Periphyton was grown in flow-through channels that were continuously alimented with a mixture of stream water and unfiltered or ultra-filtered wastewater. Impacts were assessed on periphyton biomass, activities and tolerance to micropollutants, as well as on microbial diversity. Our results showed that wastewater microorganisms colonized periphyton and modified its community composition, resulting for instance in an increased abundance of Chloroflexi and a decreased abundance of diatoms and green algae. This led to shifts towards heterotrophy, as suggested by the changes in nutrient stoichiometry and the increased mineralization potential of carbon substrates. An increased tolerance towards micropollutants was only found for periphyton exposed to unfiltered wastewater but not to ultra-filtered wastewater, suggesting that wastewater microorganisms were responsible for this increased tolerance. Overall, our results highlight the need to consider the role of wastewater microorganisms when studying potential impacts of wastewater on the receiving water body.Environmental implication The present study investigates the impact of wastewater microorganisms on periphyton, i.e. communities forming the microbial skin of streambeds. We were able to disentangle specific effects of wastewater microorganisms in the context of the complex wastewater matrix. Indeed, wastewater microorganisms induced strong changes in periphyton community composition and function, suggesting the need to consider wastewater microbial communities as a stressor per se, similarly to, e.g., nutrients and micropollutants. Moreover, since periphyton is at the basis of the food web in streams, these changes may have consequences for higher trophic levels.Competing Interest StatementThe authors have declared no competing interest.