AUTHOR=Liu Shukai , Cui Zhengguo , Bai Ying , Ding Dongsheng , Yin Junshuang , Su Rongguo , Qu Keming 

TITLE=Indirect photodegradation of ofloxacin in simulated seawater: Important roles of DOM and environmental factors

JOURNAL=Frontiers in Marine Science

VOLUME=10

YEAR=2023

URL=https://www.frontiersin.org/journals/marine-science/articles/10.3389/fmars.2023.1132216

DOI=10.3389/fmars.2023.1132216

ISSN=2296-7745

ABSTRACT=<p>Dissolved organic matter (DOM) plays a non-negligible role in the indirect photodegradation of organic contaminants. This research investigated the roles of DOM and the environmental factors (salinity, pH, NO<sub>3<sup>−</sup></sub>, and HCO<sub>3<sup>−</sup></sub>) in the indirect photodegradation of ofloxacin (OFX) in simulated seawater. Results showed that DOM can significantly accelerate the indirect photodegradation of OFX, and <sup>1</sup>O<sub>2</sub> and <sup>3</sup>DOM<sup>*</sup> were the main reactive intermediates (RIs) that could promote the indirect photodegradation of OFX. Fluorescence excitation–emission matrix spectroscopy–parallel factor analysis (EEMs-PARAFAC) was used to divide DOM into four fluorescence components. The indirect photodegradation rate of OFX was affected by DOM structure, and terrigenous DOM usually produced more RIs to promote the indirect photodegradation of OFX. Increased salinity significantly promotes the indirect photodegradation of OFX, while increased NO<sub>3<sup>−</sup></sub> concentration had no effect on the OFX indirect photodegradation. pH affected the formation of RIs and the structure of OFX, thereby affecting the indirect photodegradation of OFX. The indirect photodegradation rate of OFX increased in the HCO<sub>3<sup>−</sup></sub> solution, which is due to the formation of carbonate radical (CO<sub>3<sup>−</sup></sub>). This study is essential in understanding the role of DOM in OFX indirect photodegradation and providing a novel insight into the fate, removal, and transformation of OFX.</p>