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污泥厌氧消化过程中氢营养型产甲烷微生物对氧氟沙星的抗性

The resistance of hydrogenotrophic methanogenic microorganisms to ofloxacin in sludge anaerobic digestion process.

作者信息

Wu Yanxin, Wu Chao, Liu Xuran, Chen Hongbo, Deng Zhiyi, Wang Dongbo, Wu Zhixing, Tang Shenglan, Huang Xiaoding

机构信息

College of Environment and Resources, Xiangtan University, Xiangtan, 411105, China.

College of Environment and Resources, Xiangtan University, Xiangtan, 411105, China.

出版信息

J Environ Manage. 2024 Aug;365:121522. doi: 10.1016/j.jenvman.2024.121522. Epub 2024 Jun 22.

Abstract

Ofloxacin (OFL) is a commonly used antibiotic that can enter wastewater treatment plants and be adsorbed by the sludge, resulting in a high OFL concentration in sludge and affecting the subsequent sludge anaerobic digestion process. However, the micro mechanisms involved in this process have not been thoroughly studied. Therefore, this study focuses on the effect of OFL on the sludge anaerobic digestion of sludge to provide such support. The experimental results showed that the maximal methane yield decreased from 277.7 to 164.7 mL/g VSS with the OFL concentration increased from 0 to 300 mg/L. Additionally, OFL hindered the intermediate biochemical processes of hydrolysis, acidogenesis, acetogenesis, and acetoclastic methanogenesis. However, it promoted hydrogenotrophic methanogenesis process, using H as substrate, with the concentration of 300 mg/L OFL was 5.54 fold methane production of that in the control. Further investigation revealed that the negative effect of OFL was likely due to the induction of reactive oxygen species, which led to a decrease in cell activity and interference with the activity of key enzymes. Microbiological analysis revealed that OFL reduced the relative abundance of hydrolysis and acidogenesis bacteria, and Methanosaeta archaea, while increasing the relative abundance of hydrogenotrophic methanogenesis microorganism from 36.54% to 51.48% as the OFL concentration increase from 0 to 300 mg/L.

摘要

氧氟沙星(OFL)是一种常用抗生素,可进入污水处理厂并被污泥吸附,导致污泥中氧氟沙星浓度升高,影响后续污泥厌氧消化过程。然而,该过程涉及的微观机制尚未得到充分研究。因此,本研究聚焦于氧氟沙星对污泥厌氧消化的影响,以提供此类支持。实验结果表明,随着氧氟沙星浓度从0增加到300mg/L,最大甲烷产量从277.7mL/g VSS降至164.7mL/g VSS。此外,氧氟沙星阻碍了水解、产酸、产乙酸和乙酸裂解产甲烷等中间生化过程。然而,它促进了以H为底物的氢营养型产甲烷过程,在300mg/L氧氟沙星浓度下,甲烷产量是对照的5.54倍。进一步研究表明,氧氟沙星的负面影响可能是由于活性氧的诱导,导致细胞活性下降并干扰关键酶的活性。微生物分析表明,随着氧氟沙星浓度从0增加到300mg/L,氧氟沙星降低了水解和产酸细菌以及甲烷八叠球菌古菌的相对丰度,同时将氢营养型产甲烷微生物的相对丰度从36.54%提高到51.48%。

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