"Major factors affecting in situ biodegradation rates of jet-fuel during large-scale biosparging project in sedimentary bedrock" . "000303574700010" . "1093-4529" . "47" . . . . "Major factors affecting in situ biodegradation rates of jet-fuel during large-scale biosparging project in sedimentary bedrock"@en . "Mach\u00E1\u010Dkov\u00E1, Ji\u0159ina" . "P(TA01010552)" . "147855" . "Major factors affecting in situ biodegradation rates of jet-fuel during large-scale biosparging project in sedimentary bedrock" . . . "JOURNAL OF ENVIRONMENTAL SCIENCE AND HEALTH PART A-TOXIC/HAZARDOUS SUBSTANCES & ENVIRONMENTAL ENGINEERING" . "8" . "RIV/60460709:41330/12:54997" . "Biodegradation of petroleum hydrocarbons (TPH), mostly the lighter fractions, has become a widely used clean-up technology for contaminated soil and groundwater during the past twenty years. Methods for remediation of the unsaturated zone were tested in the late eighties and early nineties[1,10] and experience with air sparging (AS) used for biodegradation of TPHin the saturated zonewas published several years later.[6.11,14] The clean-up principle of in situ biodegradation is aerobic oxidation of TPH by bacterial metabolism of soil microflora, which utilize contaminants as a primary source of carbon and energy. Aerobic soil bacteria activity is the driving factor affecting efficiency of the clean-up." . "Major factors affecting in situ biodegradation rates of jet-fuel during large-scale biosparging project in sedimentary bedrock"@en . "[128F9A3A7CBB]" . . "Major factors affecting in situ biodegradation rates of jet-fuel during large-scale biosparging project in sedimentary bedrock"@cs . "RIV/60460709:41330/12:54997!RIV13-TA0-41330___" . "41330" . . "4"^^ . "Biodegradation of petroleum hydrocarbons (TPH), mostly the lighter fractions, has become a widely used clean-up technology for contaminated soil and groundwater during the past twenty years. Methods for remediation of the unsaturated zone were tested in the late eighties and early nineties[1,10] and experience with air sparging (AS) used for biodegradation of TPHin the saturated zonewas published several years later.[6.11,14] The clean-up principle of in situ biodegradation is aerobic oxidation of TPH by bacterial metabolism of soil microflora, which utilize contaminants as a primary source of carbon and energy. Aerobic soil bacteria activity is the driving factor affecting efficiency of the clean-up."@en . . "Vlk, Kv\u011Btoslav" . "Biodegradation of petroleum hydrocarbons (TPH), mostly the lighter fractions, has become a widely used clean-up technology for contaminated soil and groundwater during the past twenty years. Methods for remediation of the unsaturated zone were tested in the late eighties and early nineties[1,10] and experience with air sparging (AS) used for biodegradation of TPHin the saturated zonewas published several years later.[6.11,14] The clean-up principle of in situ biodegradation is aerobic oxidation of TPH by bacterial metabolism of soil microflora, which utilize contaminants as a primary source of carbon and energy. Aerobic soil bacteria activity is the driving factor affecting efficiency of the clean-up."@cs . . . "Major factors affecting in situ biodegradation rates of jet-fuel during large-scale biosparging project in sedimentary bedrock"@cs . . "Petroleum hydrocarbons, air sparging, bioremediation, sandstone"@en . "1"^^ . . "Wittlingerov\u00E1, Zde\u0148ka" . . "CZ - \u010Cesk\u00E1 republika" . . . . "14"^^ . . "Zima, Jaroslav" .