Degradation capacity of a 1, 2, 4-trichlorobenzene mineralizing microbial community for traces of organochlorine pesticides
Publication Date
2010-07-15Author
Fredrick Orori Kengara, Karl-Werner Schramm, Ulrike Doerfler, Jean Charles Munch, Bernhard Henkelmann, Gerhard Welzl, Silke Bernhoeft, Burkhard Hense, Reiner Schroll
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A soil-borne microbial community isolated from a contaminated site was previously shown to mineralize
1,2,4-trichlorobenzene (1,2,4-TCB) under aerobic conditions. The key degrader in this community was
identified as Bordetella sp. F2. The objective of the study was to test the capacity of the microbial community
to degrade a complex mixture of 27 organochlorine compounds and pesticides (OCPs) commonly detected in
the environment. The hypothesis was that the microbes would utilize the OCPs as carbon sources at the low
concentrations of these compounds, found in natural waters and soil solution. The study was carried out in
liquid culture and the changes in concentration of the OCPs were monitored using GC-MS. Data analysis was
done using a multivariate analysis method similar to Principal Response Curve (PRC) analysis. Contrary to
expectations, the data analysis showed a general trend where higher concentrations were observed in the
microbially treated samples relative to the controls. The observed trend was attributed to decreased
volatilization due to sorption of the chemicals by microbes since most of the compounds in the cocktail had
high Kow values. Nevertheless, when using adequate statistical methods for analysing the very complex data
set, correlation of Kow and KH values with the loadings of the PRCs showed that three chlorinated monoaromatics — pentachlorobenzene, pentachloroanisole and octachloroanisole — were amenable to degradation. This provided indications that the community could hold promise for the degradation of higherchlorinated mono-aromatic OCPs.
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- Department of Chemistry [337]