Detection and identification of degradation products of sulfamethoxazole by means of LC/MS and -MSn after ozone treatment

The ozonation of the antibiotic sulfamethoxazole has been studied, in order to elucidate the structures of some of the degradation products generated throughout the process. Under the conditions applied, a complete destruction of sulfamethoxazole was achieved after 10 minutes of reaction. The biodeg...

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Bibliographic Details
Published in:Water science and technology 2008-01, Vol.58 (9), p.1803-1812
Main Authors: Abellán, M N, Gebhardt, W, Schröder, H Fr
Format: Article
Language:English
Subjects:
Acute toxicity
Amines
Aniline
Animals
Antibiotics
Aromatic compounds
Biodegradability
Biodegradation
Chemical oxygen demand
Chromatography, Liquid - methods
Daphnia - drug effects
Daphnia magna
Degradation
Degradation products
Detection
Experiments
Freshwater crustaceans
Intermediates
Laboratories
Oxidation
Oxidation-Reduction
Ozonation
Ozone
Ozone - chemistry
Ozonization
Pollutants
Products
Reaction time
Sewage treatment plants
Spectrometry, Mass, Electrospray Ionization - methods
Sulfamethoxazole
Sulfamethoxazole - analysis
Sulfamethoxazole - chemistry
Sulfamethoxazole - toxicity
Toxicity
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Summary:The ozonation of the antibiotic sulfamethoxazole has been studied, in order to elucidate the structures of some of the degradation products generated throughout the process. Under the conditions applied, a complete destruction of sulfamethoxazole was achieved after 10 minutes of reaction. The biodegradability of the resulting solution has been also determined, and this parameter undergoes a gradual increase along during the reaction time. The acute toxicity of the reaction mixture, on the contrary, is only decreased during the first 5 minutes of reaction while it increases subsequently. Some of the intermediates resulting during ozonation seem to be more toxic to Daphnia magna than the untreated sulfamethoxazole. The structures of selected degradation products found in the solution are determined and identified. Ozone predominantly attacks sulfamethoxazole via the amine group of the aniline ring in some cases giving rise to nitro-aromatic compounds.
ISSN:0273-1223
1996-9732
DOI:10.2166/wst.2008.539