Studies on the metabolism of hydroxybenzonitrile herbicides: I. Mass spectrometric identification

Citation
B. Grass et al., Studies on the metabolism of hydroxybenzonitrile herbicides: I. Mass spectrometric identification, PEST MAN SC, 56(1), 2000, pp. 49-59
Citations number
16
Language
INGLESE
art.tipo
Article
Categorie Soggetti
Entomology/Pest Control
Journal title
PEST MANAGEMENT SCIENCE
ISSN journal
1526-498X → ACNP
Volume
56
Issue
1
Year of publication
2000
Pages
49 - 59
Database
ISI
SICI code
1526-498X(200001)56:1<49:SOTMOH>2.0.ZU;2-P
Abstract
The biodegradation and transport of the herbicides bromoxynil and ioxynil d uring artificial groundwater recharge and bank filtration were investigated to allow further risk assessment. The main field of interest was the ident ification and the behaviour of metabolites of these herbicides. The behavio ur of the phenoxy alkanoic acid mecoprop (MCPP) was also investigated, beca use in commercial products MCPP is often applied in combination with bromox ynil and ioxynil. A pilot plant at the Institut fur Wasserforschung in Schw erte (Ruhr valley, NRW) was used for the experiments, simulating worst-case situations during slow sand filtration and aerobic and anaerobic undergrou nd passage. Six metabolites of bromoxynil, seven of ioxynil and one of mecoprop could b e identified using GC/MS with electron impact ionization. In addition MS/MS was used to confirm the results. Seven of these 14 metabolites are describ ed for the first time. Two main pathways of metabolism can be proposed; one is the hydrolysis of t he nitrile group, resulting in the benzoic acid amide and the corresponding benzoic acid respectively, the other is a remarkable replacement of bromin e and iodine by chlorine when chloride is present in the matrix. The only metabolite of mecoprop which could be identified under these condi tions was the corresponding 4-chloro-2-methylphenol. After four weeks no fu rther degradation of this phenol could be observed. Some of the metabolites could be identified even after four weeks, so that it is obvious that they are capable of reaching the groundwater in natural systems. (C) 2000 Society of Chemical Industry.