溶解态黑碳对克林霉素的光降解作用同时受到活性氧生成和吸附作用的调控。

Photodegradation of clindamycin by the dissolved black carbon is simultaneously regulated by ROS generation and the binding effect.

作者信息

Wang Lin, Li Jing, Zhao Jing, Li Hao, Feng Jing, Zhang Peng, Pan Bo

机构信息

Yunnan Provincial Key Laboratory of Soil Carbon Sequestration and Pollution Control, Faculty of Environmental Science & Engineering, Kunming University of Science & Technology, Kunming, 650500, China.

Faculty of Material Science and Engineering, Kunming University of Science and Technology, Kunming,650500, China.

出版信息

Water Res. 2023 Apr 15;233:119784. doi: 10.1016/j.watres.2023.119784. Epub 2023 Feb 21.

DOI:10.1016/j.watres.2023.119784

PMID:36863283

Abstract

As an essential source of the natural dissolved organic matter (DOM), dissolved black carbon (DBC) plays a vital role in the photodegradation of organics; however, there is rare information about the DBC-induced photodegradation mechanism of clindamycin (CLM), one of the widely used antibiotics. Herein, we discovered DBC-generated reactive oxygen species (ROS) stimulated CLM photodegradation. Hydroxy radical (•OH) could directly attack CLM by OH-addition reaction, the singlet oxygen (O) and superoxide (O) contributed to the CLM degradation by transforming to •OH. In addition, the binding between CLM and DBCs inhibited the photodegradation of CLM by decreasing the concentration of freely dissolved CLM. Binding process inhibited CLM photodegradation by 0.25-1.98% at pH 7.0 and 6.1-41.77% at pH 8.5. These findings suggest that the photodegradation of CLM by DBC is simultaneously regulated by the ROS production and binding effect between CLM and DBC, benefiting the exact evaluation of the environmental impact of DBCs.

摘要

作为天然溶解有机物（DOM）的重要来源，溶解态黑碳（DBC）在有机物的光降解过程中起着至关重要的作用；然而，关于DBC诱导的广泛使用的抗生素之一克林霉素（CLM）的光降解机制的信息却很少。在此，我们发现DBC产生的活性氧（ROS）刺激了CLM的光降解。羟基自由基（•OH）可通过OH加成反应直接攻击CLM，单线态氧（O）和超氧阴离子（O）通过转化为•OH促进CLM的降解。此外，CLM与DBC之间的结合通过降低自由溶解的CLM浓度抑制了CLM的光降解。在pH 7.0时，结合过程对CLM光降解的抑制率为0.25 - 1.98%，在pH 8.5时为6.1 - 41.77%。这些发现表明，DBC对CLM的光降解同时受ROS产生以及CLM与DBC之间结合作用的调控，这有助于准确评估DBCs对环境的影响。

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溶解态黑碳对克林霉素的光降解作用同时受到活性氧生成和吸附作用的调控。

Photodegradation of clindamycin by the dissolved black carbon is simultaneously regulated by ROS generation and the binding effect.

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