4.7 Article

Effect of humic substances derived from pastoral areas in Zoige Plateau on photodegradation of sulfamethoxazole and ciprofloxacin

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PROCESS SAFETY AND ENVIRONMENTAL PROTECTION
卷 159, 期 -, 页码 819-829

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ELSEVIER
DOI: 10.1016/j.psep.2022.01.049

关键词

Sulfamethoxazole; Ciprofloxacin; Fulvic acids; Humic acids; Photodegradation; Antibiotic waste

资金

  1. National Key R&D Program of China [2019YFC1803500]

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The study investigated the factors affecting the photodegradation of sulfonamide and quinolone antibiotics and found that high concentrations of antibiotics impede photodegradation. The pH of the environment also plays a role, with sulfamethoxazole primarily degrading in acidic environments and ciprofloxacin degrading in neutral and alkaline environments. Reactive oxygen species, especially (1)O(2), were identified as the main active species involved in the photodegradation process. The natural organic substances humic acids produced stable and persistent free radicals, which contributed to the photodegradation process.
Sulfonamides and quinolones are widely used antibiotics. Some end up discharged into aqueous environments where they can seriously affect human health and safety. The photochemical degradation of sulfamethoxazole and ciprofloxacin with the various concentrations was analyzed in different pH natural waters. Meanwhile, the effect of natural humic and fulvic acids on the photodegradation was tracked. The photolysis curves were perfectly consistent with the first-order kinetics. High concentration of antibiotics was not conducive to photodegradation. Photodegradation of ciprofloxacin was generally occur in neutral and alkaline environments, while photodegradation of sulfamethoxazole was generally in lower acidic environments. Persistent free radicals including reactive oxygen species were found in the photolytic reactions. They were found to arise both from auto-decay of the antibiotics and from decay of the humic substances. According to EPR test, center dot & nbsp;OH and O-1(2) both have a good promotion effect on the photodegradation of antibiotics, and the contribution rate of O-1(2 & nbsp;)(50.63%) is greater than that of center dot & nbsp;OH (25.56%), indicating that (1)O(2 & nbsp;)is the main active species in the photodegradation of sulfamethoxazole and ciprofloxacin, and the contribution rate of (1)O(2 & nbsp;)produced by humic acids to the photodegradation of antibiotics is greater than that of fulvic acids. Humic substances produced a strong single signal with good symmetry in darkness and light, indicating that the free radicals produced by humic substances were EPFRs with stability and persistence. However, the amount of EPFRs produced by humic acids were more than that of fulvic acids, indicating that the free radicals produced by humic acids were the carbon center free radicals containing oxygen functional groups. Results of this study will provide further comprehensive fundamental data for risk assessment and control of antibiotics in farmland ecosystems in pastoral areas of Zoige Plateau. (C)& nbsp;2022 Institution of Chemical Engineers. Published by Elsevier Ltd. All rights reserved.

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