Screening studies with strict and facultative anaerobic bacteria showed that Clostridium app. and several other representatives of Bacillaceae and Enterobacteriaceae actively degraded gamma-hexachlorocyclohexane (gamma-HCH) under anaerobic conditions. Representatives of Lactobacillaceae and Propronibacterium were inactive. With 36Cl-labelled gamma-HCH a nearly complete dechlorination was shown to occur in 4--6 days by Clostridium butyricum, C. pasteurianum and Citrobacter freundii, while other facultative anaerobic species were less active. Aerobically grown facultative anaerobes also dechlorinated actively gamma-HCH during subsequent anaerobic incubation with glucose, pyruvate or formate as substrates. The alpha-, beta- and delta-HCH isomers were also, but more slowly, dechlorinated (gamma larger than alpha larger than beta larger than or equal to delta-HCH). All species active in anaerobic degradation of gamma-HCH formed gamma-tetrachlorocyclohexene (TCH) as the main intermediate metabolite and no gamma-pentachlorocyclohexene (PCH) or other isomers of TCH or PCH have been found. Small amounts of tri- and tetrachlorinated benzenes have been found too. The mechanism of dechlorination is discussed.
13C-NMR spectroscopy was applied to the evaluation
of soil-bound residues of the fungicide cyprodinil (4-cyclopropyl-
6-methyl-2-phenylaminopyrimidine). A mixture of the
13C-
and 14C-labeled fungicide was used to obtain
structural
information as well as information on the quantitative
distribution in the various fractions. Bound residues
were
accumulated by a 6-month incubation of the labeled
compound with a clay loamy soil. Depending on the
concentration of [13C]cyprodinil (500, 250, 80, and
3 mg/kg),
binding ranged from 18% to 54% of the initial
radioactivity.
After methanol extraction of soil (10 g dry weight) treated
with
500 mg/kg (5.0 mg) of the fungicide, the amount of unextracted bound material was equivalent to 0.9 mg of
13C-labeled cyprodinil. Upon fractionation, 0.21 mg of
the
bound fungicide was found in the dialyzed humic acid,
0.13 mg in fulvic acid (after extraction with
CH2Cl2), and 0.24
mg in humin. The methylene chloride extract from
fulvic
acid mainly contained unchanged cyprodinil (0.21 mg) that
was apparently sequestered in soil by physical forces.
The humic acid fraction was dissolved in a 1% solution
of
NaOD and examined by 13C-NMR. The NMR
spectrum
of the material from the control sample exhibited all the
characteristic features of a typical humic acid. When
the
control humic acid was spiked with cyprodinil labeled
uniformly with 13C at the phenyl ring, four additional
signals
at 121.9, 124.4, 131.8, and 143.4 ppm could be
distinguished
in the NMR spectrum. However, when humic acid
originated from the soil that was incubated with the
phenyl-labeled fungicide, only two strong NMR signals, at 122.5
and 131.8 ppm, and two less significant signals around 142
and 162 ppm were observed. The difference in the
signal
pattern indicated cleavage of the cyprodinil molecule
between
the aromatic rings and independent binding of the phenyl
and pyrimidyl moieties to humic acid.
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