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W3200647094 endingPage "127248" @default.
W3200647094 startingPage "127248" @default.
W3200647094 abstract "The fate of antibiotics in activated sludge has attracted increasing interests. However, the focus needs to shift from concerning removal efficiencies to understanding mechanisms and sludge responding to antibiotic toxicity. Herein, we operated two anaerobic sequencing batch reactors (ASBRs) for 200 days with sulfadiazine (SDZ) and sulfamethoxazole (SMX) added. The removal efficiency of SMX was higher than that of SDZ. SDZ was removed via adsorption (9.91-21.18%) and biodegradation (10.20-16.00%), while biodegradation (65.44-86.26%) was dominant for SMX removal. The mechanisms involved in adsorption and biodegradation were investigated, including adsorption strength, adsorption sites and the roles of enzymes. Protein-like substance (tryptophan) functioned vitally in adsorption by forming complexes with sulfonamides. P450 enzymes may catalyze sulfonamides degradation via hydroxylation and desulfurization. Activated sludge showed distinct responses to different sulfonamides, reflected in the changes of microbial communities and functions. These responses were related to sulfonamides removal, corresponding to the stronger adsorption capacity of activated sludge in ASBR-SDZ and degradation capacity in ASBR-SMX. Furthermore, the reasons for different removal efficiencies of sulfonamides were analyzed according to steric and electronic effects. These findings propose insights into antibiotic removal and broaden the knowledge for self-protection mechanisms of activated sludge under chronic toxicities of antibiotics." @default.
W3200647094 created "2021-09-27" @default.
W3200647094 creator A5016518424 @default.
W3200647094 creator A5021501204 @default.
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W3200647094 creator A5073875379 @default.
W3200647094 creator A5078897414 @default.
W3200647094 creator A5088469698 @default.
W3200647094 date "2022-02-01" @default.
W3200647094 modified "2023-10-17" @default.
W3200647094 title "Insights into removal of sulfonamides in anaerobic activated sludge system: Mechanisms, degradation pathways and stress responses" @default.
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W3200647094 doi "https://doi.org/10.1016/j.jhazmat.2021.127248" @default.
W3200647094 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/34560488" @default.
W3200647094 hasPublicationYear "2022" @default.