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« Previous AbstractBiodegradation of petroleum hydrocarbon vapors: laboratory studies on rates and kinetics in unsaturated alluvial sand    Next AbstractExperimental investigation of pneumatic soil vapor extraction »

J Contam Hydrol


Title:"Biodegradation of hydrocarbons vapors: Comparison of laboratory studies and field investigations in the vadose zone at the emplaced fuel source experiment, Airbase Vaerlose, Denmark"
Author(s):Hohener P; Dakhel N; Christophersen M; Broholm M; Kjeldsen P;
Address:"Laboratoire de Chimie et Environnement, Universite de Provence, Case 29, 3, Place Victor Hugo, F-13331 Marseille Cedex 3, France. hoehener@up.univ-mrs.fr"
Journal Title:J Contam Hydrol
Year:2006
Volume:20060908
Issue:3-Apr
Page Number:337 - 358
DOI: 10.1016/j.jconhyd.2006.07.007
ISSN/ISBN:0169-7722 (Print) 0169-7722 (Linking)
Abstract:"The natural attenuation of volatile organic compounds (VOCs) in the unsaturated zone can only be predicted when information about microbial biodegradation rates and kinetics are known. This study aimed at determining first-order rate coefficients for the aerobic biodegradation of 13 volatile petroleum hydrocarbons which were artificially emplaced as a liquid mixture during a field experiment in an unsaturated sandy soil. Apparent first-order biodegradation rate coefficients were estimated by comparing the spatial evolution of the resulting vapor plumes to an analytical reactive transport model. Two independent reactive numerical model approaches have been used to simulate the diffusive migration of VOC vapors and to estimate degradation rate coefficients. Supplementary laboratory column and microcosm experiments were performed with the sandy soil at room temperature under aerobic conditions. First-order kinetics adequately matched the lab column profiles for most of the compounds. Consistent compound-specific apparent first-order rate coefficients were obtained by the three models and the lab column experiment, except for benzene. Laboratory microcosm experiments lacked of sensitivity for slowly degrading compounds and underestimated degradation rates by up to a factor of 5. Addition of NH3 vapor was shown to increase the degradation rates for some VOCs in the laboratory microcosms. All field models suggested a significantly higher degradation rate for benzene than the rates measured in the lab, suggesting that the field microbial community was superior in developing benzene degrading activity"
Keywords:"Bacteria/*metabolism Biodegradation, Environmental Denmark Hydrocarbons/chemistry/*metabolism Kinetics Petroleum/*metabolism Soil Soil Pollutants/chemistry/*metabolism Volatilization Water Pollutants, Chemical/chemistry/*metabolism;"
Notes:"MedlineHohener, Patrick Dakhel, Nathalie Christophersen, Mette Broholm, Mette Kjeldsen, Peter eng Comparative Study Research Support, Non-U.S. Gov't Netherlands 2006/09/12 J Contam Hydrol. 2006 Dec 15; 88(3-4):337-58. doi: 10.1016/j.jconhyd.2006.07.007. Epub 2006 Sep 8"

 
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