Photodegradation of Azithromycin in Various Aqueous Systems Under Simulated and Natural Solar Radiation: Kinetics and Identification of Photoproducts

Overview

Journal Chemosphere

Specialties Biology
Chemistry
Environmental Health

Date 2011 Jan 12

PMID 21220145

Citations 12

Authors

Lei Tong

Peter Eichhorn

Sandra Perez

Yanxin Wang

Damia Barcelo

Affiliations

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Abstract

This article describes the photolysis of azithromycin, a macrolide antibiotic with reported occurrence in environmental waters, under simulated solar radiation. The photodegradation followed first-order reaction kinetics in five matrices examined. In HPLC water, the degradation rate was the slowest (half-life: 20h), whereas in artificial freshwater supplemented with nitrate (5mgL(-1)) or humic acids (0.5mgL(-1)) the degradation of azithromycin was enhanced by factors of 5 and 16, respectively, which indicated the role of indirect photolysis involving the formation of highly reactive species. Following chromatographic separation on a UPLC system, the characterization of the transformation products was accomplished using high-resolution QqToF-MS analysis. The presence of seven photoproducts was observed and their formation was postulated to originate from (bis)-N-demethylation in the desosamine sugar, O-demethylation in the cladinose sugar, combinations thereof, as well as from hydrolytic cleavages of the desosamine and/or cladinose residue. Two of these photoproducts could also be detected in natural photodegradation process in river water which was spiked with azithromycin.

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