Simultaneous efficient degradation and dechlorination of chloramphenicol using UV/sulfite reduction: Mechanisms and product toxicity
文献类型: 外文期刊
作者: Wu, Lijuan 1 ; Yan, Xiaoke 1 ; Yang, Lie 1 ; Shen, Shitai 1 ; Li, Yulong 1 ; Yang, Shangding 1 ; He, Liuyang 1 ; Chen, Yulin 1 ; Yang, Shengmao 2 ; Zhang, Zulin 1 ;
作者机构: 1.Wuhan Univ Technol, Sch Resources & Environm Engn, Hubei Key Lab Mineral Resources Proc & Environm, Wuhan 430070, Peoples R China
2.Zhejiang Acad Agr Sci, Inst Environm Resource Soil & Fertilizer, 198 Shiqiao Rd, Hangzhou 310021, Peoples R China
3.James Hutton Inst, Aberdeen ABI5 8QH, Scotland
关键词: Chloramphenicol; UV; Sulfite; ARPs; Hydrated electron
期刊名称:CHEMICAL ENGINEERING JOURNAL ( 影响因子:16.744; 五年影响因子:14.61 )
ISSN: 1385-8947
年卷期: 2023 年 452 卷
页码:
收录情况: SCI
摘要: Chloramphenicol (CAP) is of great concern due to its extensive use and nonnegligible impact on the eco-environment. Herein, the degradation performance and mechanism of CAP by UV/sulfite advanced reduction processes (ARPs) were systematically investigated. 90.67 % degradation efficiency and 92.22 % dechlorination of CAP were simultaneously achieved within 50 min using UV/sulfite-ARPs. The degradation and dechlorination efficiency of the CAP remained elevated with the increase of sulfite concentration, and eventually complete degradation and dechlorination were achieved. Hydrated electrons (eaq) and direct UV photolysis dominated in the degradation and dechlorination of CAP at pH 5-11. The presence of commonly co-existing anions, humic acid and various water matrices exhibited negligible effect on the CAP degradation and dechlorination efficiencies. Possible degradation pathways of CAP were proposed. Ecotoxicity prediction and seed germination experiments indicated that the acute and chronic ecotoxicity of CAP solution was significantly reduced after the treatment with UV/sulfite-ARPs. Overall, this study demonstrated that UV/sulfite-ARPs could be a promising approach for the CAP purification from wastewaters.
- 相关文献
作者其他论文 更多>>
-
Relationships between arsenic biotransformation genes, antibiotic resistance genes, and microbial function under different arsenic stresses during composting
作者:Ding, Yongzhen;Li, Daoxian;Li, Jiajia;Zhi, Suli;Ding, Yongzhen;Lin, Hui;Zhang, Zulin;Chang, Chein-Chi
关键词:Arsenic; Arsenic biotransformation genes; Antibiotic resistance gens; Compost; Bacterial community
-
Unraveling how Fe-Mn modified biochar mitigates sulfamonomethoxine in soil water: The activated biodegradation and hydroxyl radicals formation
作者:Wang, Yuying;Lyu, Haohao;Du, Yuqian;Cheng, Qilu;Liu, Yuxue;Ma, Junwei;Yang, Shengmao;Lin, Hui;Wang, Yuying;Lyu, Haohao;Liu, Yuxue;Yang, Shengmao
关键词:Biochar; Soil water; Antibiotic; Degradation; Free radicals
-
Effect of antibiotic perturbation on nitrous oxide emissions: An in-depth analysis
作者:Yu, Wenjun;Yu, Wenjun;Ma, Junwei;Yu, Qiaogang;Lin, Hui;Hayat, Kashif;Qian, Mingrong;Fan, Xiaoping;Yang, Yuyi;Zhang, Zulin
关键词:Soil pollution; greenhouse gas; soil microorganisms; nitrogen cycling; meta-analysis
-
Ball milling boosted hydrothermal N-doped sludge-derived biochar towards efficiently adsorptive removal of sulfamethoxazole from waters: Behavior, mechanism and DFT study
作者:Ma, Yongfei;Yao, Yanlai;Liu, Yan;Ma, Yongfei;Qian, Shufang;Deng, Zhikang;Zhang, Zulin;Yao, Yanlai;Ma, Junwei;Zhang, Zulin
关键词:Sulfamethoxazole; N -doping; Ball milling; Environmental safety; Regeneration
-
Saline-alkali soil amended with biochar derived from maricultural-solid-waste: Ameliorative effect and mechanism
作者:Cai, Yongkun;Wu, Lele;Song, Xiefa;Li, Xian;Ren, Liping;Wu, Lele;Li, Jun;Yang, Shengmao
关键词:Maricultural-solids-waste; Biochar; Saline-alkali soil; Salicornia europaea L
-
Microbial resistance stability of rice straw biochar with vermiculite modification: A novel insight into persistent free radicals and pore structure
作者:Liu, Yuxue;Wang, Rui;He, Lili;Wang, Yuying;Lu, Haohao;Yang, Shengmao;Liu, Yuxue;Li, Cunjun;Liu, Yuxue;He, Lili;Wang, Yuying;Lu, Haohao;Yang, Shengmao;Wang, Rui;Yang, Shengmao
关键词:Carbon-based material; Pore diameter distribution; Dissolved organic carbon; Carbonization temperature; Thermo-chemical stability; Carbon sequestration
-
Ball milling-assisted preparation of sludge biochar as a novel periodate activator for nonradical degradation of sulfamethoxazole: Insight into the mechanism of enhanced electron transfer
作者:He, Liuyang;Yang, Shangding;Yang, Lie;Shen, Shitai;Li, Yulong;Kong, Dejin;Wu, Li;Zhang, Zulin;Chen, Zhuqi;Wang, Jia;Yang, Shengmao;Zhang, Zulin
关键词:Periodate; Magnetic sludge biochar; Ball milling; Electron transfer; Nonradical degradation
