地杆菌
污水
生物降解
污水处理
污染物
废水
环境化学
化学
氧氟沙星
微生物种群生物学
微生物学
环境工程
细菌
生物
抗生素
环境科学
生物膜
环丙沙星
有机化学
遗传学
作者
Dengping Liu,Yuduo Zhang,Qilin Yang,Yancheng Li,Jiang Li,Xun Liao
标识
DOI:10.1016/j.biortech.2023.128611
摘要
Ofloxacin (OFL) with high biological activity and antimicrobial degradation is a kind of the typical high concentration and environmental risk antibiotics in rural sewage. In this paper, a combined rural sewage treatment facility based on anaerobic baffled reactor and integrated constructed wetlands was built and the removal performance, pathway and mechanism for OFL and conventional pollutants were evaluated. Results showed that the OFL and TN removal efficiency achieved 91.78 ± 3.93 % and 91.44 ± 4.15 %, respectively. Sludge adsorption was the primary removal pathway of OFL. Metagenomics analysis revealed that Proteobacteria was crucial in OFL removal. baca was the dominated antibiotic resistance genes (ARGs). Moreover, carbon metabolism with a high abundance was conductive to detoxify OFL to enhance system stability and performance. Co-occurrence network analysis further elucidated that mutualism was the main survival mode of microorganisms. Denitrifers Microbacterium, Geobacter and Ignavibacterium, were the host of ARGs and participated in OFL biodegradation.
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