Influence of Season on Biodegradation Rates in Rivers

• Published in: Environmental science & technology Vol. 58; no. 16; pp. 7144 - 7153
• Main Authors: Tian, Run, Posselt, Malte, Miaz, Luc T., Fenner, Kathrin, McLachlan, Michael S.
• Format: Journal Article
• Language: English
• Published: United States American Chemical Society 23.04.2024
• Subjects: ambient temperature; bacteria; Biodegradation; Biodegradation, Environmental; Chemicals; environmental fate; Functional groups; micropollutants; Occurrence, Fate, and Transport of Aquatic and Terrestrial Contaminants; Rate constants; risk; Rivers; Rivers - chemistry; Rivers - microbiology; Seasonal variations; seasonality; Seasons; Sweden; technology; total cell count; uncertainty; up- and downstream; Variance analysis; Water Pollutants, Chemical - analysis; Water Pollutants, Chemical - metabolism; Sweden; biodegradation; up- and downstream; total cell count; seasonality; micropollutants
• ISSN: 0013-936X; 1520-5851; 1520-5851
• DOI: 10.1021/acs.est.3c10541

Biodegradation plays a key role in the fate of chemicals in the environment. The variability of biodegradation in time can cause uncertainty in evaluating the environmental persistence and risk of chemicals. However, the seasonality of biodegradation in rivers has not yet been the subject of environmentally relevant testing and systematic investigation for large numbers of chemicals. In this work, we studied the biodegradation of 96 compounds during four seasons at four locations (up- and downstream of WWTPs located on two Swedish rivers). Significant seasonality (ANOVA, p < 0.05) of the first-order rate constant for primary biodegradation was observed for most compounds. Variations in pH and total bacterial cell count were not the major factors explaining the seasonality of biodegradation. Deviation from the classical Arrhenius-type behavior was observed for most of the studied compounds, which calls into question the application of this relationship to correct biodegradation rate constants for differences in environmental temperature. Similarities in magnitude and seasonality of biodegradation rate constants were observed for some groups of chemicals possessing the same functional groups. Moreover, reduced seasonality of biodegradation was observed downstream of WWTPs, while biodegradation rates of most compounds were not significantly different between up- and downstream.