1. Enzymatic degradability of diclofenac ozonation products: A mechanistic analysis.
- Author
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Schmiemann, Dorothee, Bicks, Florian, Bartels, Indra, Cordes, Arno, Jäger, Martin, Gutmann, Jochen Stefan, and Hoffmann-Jacobsen, Kerstin
- Subjects
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MICROPOLLUTANTS , *LACCASE , *OZONIZATION , *TANDEM mass spectrometry , *SEWAGE disposal plants , *DICLOFENAC , *HIGH performance liquid chromatography - Abstract
The treatment of waterborne micropollutants, such as diclofenac, presents a significant challenge to wastewater treatment plants due to their incomplete removal by conventional methods. Ozonation is an effective technique for the degradation of micropollutants. However, incomplete oxidation can lead to the formation of ecotoxic by-products that require a subsequent post-treatment step. In this study, we analyze the susceptibility of micropollutant ozonation products to enzymatic digestion with laccase from Trametes versicolor to evaluate the potential of enzymatic treatment as a post-ozonation step. The omnipresent micropollutant diclofenac is used as an example, and the enzymatic degradation kinetics of all 14 detected ozonation products are analyzed by high-performance liquid chromatography coupled with high-resolution mass spectrometry (HPLC-HRMS) and tandem mass spectrometry (MS2). The analysis shows that most of the ozonation products are responsive to chemo-enzymatic treatment but show considerable variation in enzymatic degradation kinetics and efficiencies. Mechanistic investigation of representative transformation products reveals that the hydroxylated aromatic nature of the ozonation products matches the substrate spectrum, facilitating their rapid recognition as substrates by laccase. However, after initiation by laccase, the subsequent chemical pathway of the enzymatically formed radicals determines the global degradability observed in the enzymatic process. Substrates capable of forming stable molecular oxidation products inhibit complete detoxification by oligomerization. This emphasizes that it is not the enzymatic uptake of the substrates but the channelling of the reaction of the substrate radicals towards the oligomerization of the substrate radicals that is the key step in the further development of an enzymatic treatment step for wastewater applications. [Display omitted] • Isolated enzymes effectively convert ozonation by-products of diclofenac. • Enzyme substrate spectrum and ozonation product chemistry match. • Different degradation efficiencies result from post-laccase reaction, not enzyme selectivity. • Channelling the post-reaction to oligomerization is the pathway to complete degradation. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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