Indirect photodegradation of sulfisoxazole: Effects of environmental factors (CDOM, pH, salinity, HCO3−, metal ions, halogen ions and NO3−)

It's a new perspective to explore the influences of chromophoric dissolved organic matter (CDOM) components and environmental factors on the removal of sulfisoxazole (SIX) from the water matrix. Reactive intermediates (RIs) trapping experiments demonstrated that excited triplet-state CDOM (3CDO...

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Published in:Marine pollution bulletin 2022-01, Vol.174, p.113320-113320, Article 113320
Main Authors: Duan, Jiaqi, Jian, Huimin, Dou, Qiwei, Shi, Xiaoyong, Su, Rongguo
Format: Article
Language:English
Subjects:
Analytical methods
Chromophoric dissolved organic matter
Coastal waters
Components
Copper
Dissolved Organic Matter
Emission analysis
Environmental factors
Excitation spectra
Fluorescence
Halogens
Hydrogen-Ion Concentration
Indirect photodegradation
Intermediates
Iron
Metal ions
Metals
Organic Chemicals
pH effects
Photodegradation
Photolysis
Reactive intermediates
Salinity
Salinity effects
Spectrometry, Fluorescence
Spectroscopy
Sulfisoxazole
Terrestrial environments
Water
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Summary:It's a new perspective to explore the influences of chromophoric dissolved organic matter (CDOM) components and environmental factors on the removal of sulfisoxazole (SIX) from the water matrix. Reactive intermediates (RIs) trapping experiments demonstrated that excited triplet-state CDOM (3CDOM⁎) played a dominant promoting role (54.11%) in the CDOM-mediated SIX indirect photodegradation. Additionally, terrestrial humic-like (C1, C3 and C4) and marine humic-like (C2) fluorescent components were identified by parallel factor (PARAFAC) analysis of CDOM excitation-emission matrix spectroscopy (EEMs). C1 and C4 were significantly correlated (R2 > 0.91) with the SIX degradation rate owing to their higher productivity of RIs and a greater contribution to the production of 3CDOM⁎ compared to others. Salinity, pH and HCO3− were conducive to the SIX indirect photodegradation, while metal ions (Fe3+ and Cu2+), halogen ions (Cl− and Br−) and NO3− were opposite. These findings are essential for understanding the environmental fate of SIX in coastal waters. [Display omitted] •The SIX removal was controlled by the CDOM exogenous components (C1 and C4).•OH, 1O2 and 3CDOM⁎ played a key role in the indirect photodegradation of SIX.•The 3CDOM⁎contribution rate to the SIX indirect photodegradation was up to 54.11%.•Salinity, pH and HCO3− were favorable to the indirect photodegradation of SIX.
ISSN:0025-326X
1879-3363
DOI:10.1016/j.marpolbul.2022.113320