2018
DOI: 10.1016/j.watres.2017.10.073
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Evidence of co-metabolic bentazone transformation by methanotrophic enrichment from a groundwater-fed rapid sand filter

Abstract: The herbicide bentazone is recalcitrant in aquifers and is therefore frequently detected in wells used for drinking water production. However, bentazone degradation has been observed in filter sand from a rapid sand filter at a waterworks with methane-rich groundwater. Here, the association between methane oxidation and removal of bentazone was investigated with a methanotrophic enrichment culture derived from methane-fed column reactors inoculated with that filter sand. Several independent lines of evidence o… Show more

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Cited by 40 publications
(43 citation statements)
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“…The presence of carboxylic acid moieties in TP304, TP278, TP276, and TP234 clearly indicates the enzymatic cleavage of the aromatic ring in bentazone. This biodegradation reaction, which is common for aromatic compounds (27,28), involves hydroxylation reactions as primary biodegradation step (10,20). This is supported by previous studies showing the formation of 6-OH-, 8-OH-, isopropyl-OH-and di-OHbentazone during bentazone degradation by a methanotrophic enrichment culture enriched from the same rapid sand filter at Sjaelsø waterworks Plant II (20).…”
Section: Degradation Of 6-and 8-oh-bentazone In Filter Sand (Bm1 and supporting
confidence: 65%
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“…The presence of carboxylic acid moieties in TP304, TP278, TP276, and TP234 clearly indicates the enzymatic cleavage of the aromatic ring in bentazone. This biodegradation reaction, which is common for aromatic compounds (27,28), involves hydroxylation reactions as primary biodegradation step (10,20). This is supported by previous studies showing the formation of 6-OH-, 8-OH-, isopropyl-OH-and di-OHbentazone during bentazone degradation by a methanotrophic enrichment culture enriched from the same rapid sand filter at Sjaelsø waterworks Plant II (20).…”
Section: Degradation Of 6-and 8-oh-bentazone In Filter Sand (Bm1 and supporting
confidence: 65%
“…Based on the MS/MS spectra of carboxy-bentazone revealing the cleavage of a C3H4O2 group instead of C3H6, it is clear that this transformation product was formed by oxidation of one of the isopropyl CH3 groups to the corresponding carboxylic acid. This is further supported by the loss of a CO2 group as well as by results showing the hydroxylation of the isopropyl-moiety by methanotrophs as one main biotransformation pathway for bentazone (Figure 1) (20). For TP246 the obtained exact mass indicated the cleavage of two carbon atoms and the incorporation of two oxygen atoms.…”
Section: Identification Of Transformation Products At High Concentratsupporting
confidence: 61%
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“…Hence, it has been reported as one of the most important contaminants in terms of frequency of detection and maximum concentration in surface freshwater and groundwater [79]. For example, in Denmark, it was one of the pesticides detected in 49.5% of the groundwater monitoring wells in the period 1990-2015 [84].…”
Section: Electrochemical Detection Of Bentazonementioning
confidence: 99%