Microbial breakdown of halogenated aromatic pesticides and related compounds

Häggblom, Max M.

doi:10.1111/j.1574-6968.1992.tb05823.x

Cited by 363 publications

(137 citation statements)

References 389 publications

(510 reference statements)

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“…In the analogy of aerobic degradation of fluorobenzoic acids, 21) these metabolites are considered to be first dioxygenated to form the corresponding fluorocatechols which subsequently undergo ring cleavage and oxidation with liberation of fluoride.…”

Section: Discussionmentioning

confidence: 99%

Aerobic metabolism and adsorption of pyrethroid insecticide metofluthrin in soil

Kodaka¹,

Suzuki

Sugano

et al. 2007

J. Pestic. Sci.

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Metofluthrin [2,3,5,6-tetrafluoro-4-(methoxymethyl)benzyl (1R,3R)-2,2-dimethyl-3-((1EZ)-prop-1-enyl)cyclopropanecarboxylate] was rapidly degraded in two aerobic US soils with first-order half-lives of 2.3-3.5 days primarily via ester cleavage to give the corresponding acid and alcohol without any epimerization and geometrical isomerization. The rapid oxidation proceeded either at the prop-1-enyl group of the acid to moiety form the diacid derivative or the benzyl carbon to finally give the terephthalic acid derivative. These metabolites were finally mineralized to carbon dioxide with partial formation of bound residues. The soil adsorption coefficients (K oc ) of the Z isomer, the main component of metofluthrin, in three German soils were determined to be 3553-6124 (ml/g o.c.) by the batch equilibrium method. The screening groundwater simulation model SCI-GROW using the metabolic half-lives and K oc values clearly indicates that metofluthrin is most unlikely to contaminate groundwater even in the unrealistic worst case.

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Section: Discussionmentioning

confidence: 99%

Aerobic metabolism and adsorption of pyrethroid insecticide metofluthrin in soil

Kodaka¹,

Suzuki

Sugano

et al. 2007

J. Pestic. Sci.

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“…4-CP is a toxic and recalcitrant compound which is formed, for example, from chlorination of waste water, in pulp mills, from breakdown of herbicides such as 2,4-dichlorophenoxyacetic acid (Pritchard et al, 1987) and from anaerobic degradation of more highly chlorinated phenols, such as pentachlorophenol and 2,4,6-trichlorophenol (Madsen & Aamand, 1992 ;Woods et al, 1989). The toxicity of 4-CP is reflected in the fact that although several microbial strains can degrade 4-CP, such as certain members of the genera Pseudomonas, Alcaligenes and Arthrobacter (Ha$ ggblom, 1990(Ha$ ggblom, , 1992, degradation is usually limited to relatively low concentrations in the range of 20-100 p.p.m. (0n2-0n8 mM).…”

Section: Abbreviation : 4-cp 4-chlorophenolmentioning

confidence: 99%

“…The black pigments were insoluble in water and formed a precipitate. The pigments could consist of accumulating intermediate(s) in the 4-CP degradation pathway (Ha$ ggblom, 1992). Further characterization of the pigments is under way.…”

Section: Growth On Other Aromatics and Pigment Productionmentioning

confidence: 99%

Arthrobacter chlorophenolicus sp. nov., a new species capable of degrading high concentrations of 4-chlorophenol.

Westerberg¹,

Elväng²,

Stackebrandt³

et al. 2000

International Journal of Systematic and Evolutionary Microbiology

153

118

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“…However, although mixed culture and J. Watson and others sediment slurry studies of marine haloaromatic dehalogenation and degradation are abundantly documented in the literature (e.g. Abrahamsson & Klick, 1991 ;Allard et al, 1991 ;Boothe et al, 1997 ;Genthner et al, 1989 ;Ha$ ggblom &Young, 1990King, 1988 ;Monserrate & Ha$ ggblom, 1997 ;Remberger et al, 1986) and dehalogenating bacteria from freshwater and terrestrial environments have been intensively studied (see El Fantroussi et al, 1998 ;Fetzner & Lingens, 1994 ;Ha$ ggblom, 1992 ;Hale et al, 1994 ;Janssen et al, 1994 ;Mohn & Tiedje, 1992 for recent reviews), marine strains highly active against multiply substituted haloaromatics have proven difficult to enrich and isolate into pure culture. This is particularly true of reductively dehalogenating organisms, which can remove halogen atoms from the aromatic ring.…”

Section: Introductionmentioning

confidence: 99%

Reductively debrominating strains of Propionigenium maris from burrows of bromophenol-producing marine infauna.

Watson¹,

Matsui²,

Leaphart³

et al. 2000

International Journal of Systematic and Evolutionary Microbiology

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Two novel strains of Propionigenium maris able to reductively debrominate 2,4,6-tribromophenol (TBP) to monobromophenols were isolated from marine hemichordate and polychaete burrows. These two strains, DSL-1 and ML-1, were anaerobic, non-motile rods that stained Gram-negative and required 005 % yeast extract for growth. Strain DSL-1 fermented pyruvate and succinate to predominantly butyrate and strain ML-1 fermented glucose and succinate primarily to propionate. No inorganic terminal electron acceptors were identified. The pH and temperature optima for growth were 76 and 30 SC for strain DSL-1 and 70 and 32 SC for strain ML-1, respectively ; doubling times for strains DSL-1 and ML-1 were 032 h and 030 h, respectively. Both strains required 2-3 % (w/v) NaCl for optimal growth. Morphological and physiological features, as well as the results of 16S rDNA sequence analysis, showed these to be new strains of Propionigenium maris. Because they differ from the P. maris type strain (DSM 9537 T ) in a number of respects, including their ability to rapidly debrominate di-and tribromophenols, and in their specific habitats, the species description is amended to include these ecologically important properties.

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Microbial breakdown of halogenated aromatic pesticides and related compounds

Cited by 363 publications

References 389 publications

Aerobic metabolism and adsorption of pyrethroid insecticide metofluthrin in soil

Aerobic metabolism and adsorption of pyrethroid insecticide metofluthrin in soil

Arthrobacter chlorophenolicus sp. nov., a new species capable of degrading high concentrations of 4-chlorophenol.

Reductively debrominating strains of Propionigenium maris from burrows of bromophenol-producing marine infauna.

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