S.G. Lee scite author profile

Pseudomonas putida is well known as a toluenedegrading bacterium. Because methyl tert-butyl ether (MTBE) often coexists with toluene in subsurface environment, in this study we investigated substrate interactions between toluene and MTBE, and their degradation potential in mixtures by Pseudomonas putida. Batch microcosm studies were conducted for a wide concentration range (25-200 mg L 21 ) to monitor bacterial growth associated with toluene and/or MTBE degradation using Pseudomonas putida previously adapted to toluene. We found that the effect of MTBE on toluene degradation was strongly concentration-dependent, and that concentrations of either toluene or MTBE as low as 25 mg L 21 can enhance degradation of other compound, but those concentrations higher than 25 mg L 21 tend to result in negative or no effect. The negative effect was more pronounced for toluene since MTBE degradation was inhibited at a concentration of 50 mg L 21 or higher toluene. This indicates that concentrations of cocontaminants become a limiting factor for bioremediation of groundwater. Therefore, for higher degradation efficiency, care should be taken in the selection of concentration ranges of toluene and MTBE.

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Characteristics of magnetocardiograms measured using various pickup coil structures

Lee

Kang

Hung

et al. 2007

Physica C: Superconductivity and its Applications

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S.G. Lee

Measurement of MCG in Unshielded Environment Using a Second-Order SQUID Gradiometer

Experimental study of quasiparticle tunneling in high Tc junctions

Comparison of Magnetocardiograms Measured Using Different SQUID Pickup Coil Configuration

Substrate interactions between toluene and methyltert‐butyl ether (MTBE) during microbial degradation by Pseudomonas putida

Characteristics of magnetocardiograms measured using various pickup coil structures

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