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Substrate Utilization Patterns During BTEX Biodegradation by an o-Xylene-Degrading Bacterium Ralstonia sp. PHS1  

Lee, Sung-Kuk (School of Environmental Science and Engineering, Division of Molecular and Life Sciences, Pohang University of Science and Technology)
Lee, Sun-Bok (Sciences, Pohang University of Sciences and Technology)
Publication Information
Journal of Microbiology and Biotechnology / v.12, no.6, 2002 , pp. 909-915 More about this Journal
Abstract
The biodegradation of BTEX components (benzene, toluene, ethylbenzene, o-xylene, m-xylene, and p-xylene) individually and in mixtures was investigated using the o-xylene-degrading thermo-tolerant bacterium Ralsronia sp. strain PHS1 , which utilizes benzene, toluene, ethylbenzene, or o-xylene as its sole carbon source. The results showed that as a single substrate for growth, benzene was superior to both toluene and ethylbenzene. While growth inhibition was severe at higher o-xylene concentrations, no inhibition was observed (up to 100 mg $l^-1$) with ethylbenzene. In mixtures of BTEX compounds, the PHS1 culture was shown to degrade all six BTEX components and the degradation rates were in the order of benzene, toluene, o-xylene, ethylbenzene, and m- and p-xylene. m-Xylene and p-xylene were found to be co-metabolized by this microorganism in the presence of the growth-supporting BTEX compounds. In binary mixtures containing the growth substrates (benzene, toluene, ethylbenzene. and o-xylene), PHS1 degraded each BTEX compound faster when it was alone than when it was a component of a BTEX mixture, although the degree of inhibition varied according to the substrates in the mixtures. p-Xylene was shown to be the most potent inhibitor of BTEX biodegradation in binary mixtures. On the other hand, the degradation rates of the non-growth substrates (m-xylene and p-xylene) were significantly enhanced by the addition of growth substrates. The substrate utilization patterns between PHS1 and other microorganisms were also examined.
Keywords
BTEX; o-xylene; biodegradation; Ralstonia sp.; substrate interactions;
Citations & Related Records
Times Cited By KSCI : 8  (Citation Analysis)
Times Cited By Web Of Science : 6  (Related Records In Web of Science)
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