Citation: | ZHANG Sheng, ZHANG Cui-yun, HE Ze, et al. 2016: Application research of enhanced in-situ micro-ecological remediation of petroleum contaminated soil. Journal of Groundwater Science and Engineering, 4(3): 157-164. |
SHEN Tie-meng, HUANG Guo-qiang, et al. 2002. In situ remediation of petroleum contaminated soil. Environmental Science Trends, (3): 13–15 .
|
Gallego J L, Loredo J, et al. 2001. Bioremediation of diesel-contaminated soils: Evaluation of potential in situ techniques by study of bacterial degradation. Biodegradation, 12(5): 325–335 .
|
ZHANG Hai-rong, LI Pei-jun, et al. 2001. Bioremediation on 4 soils contaminated by petroleum oils using prepared bed processes. Agro-Environmental Protection, 20(2): 78–80 .
|
HE Yi, WU Hai, WEI Wei. 2005. Bacteria-based bioremediation technique for oil-polluted soil. Soils, 37(3): 338–340 .
|
YAO Zhi-hua, WANG Hong-qi, et al. 2006. Screening and characterization of benzene degrading bacterium in oil-contaminated soil. Journal of Agro-Environment Science, 25(6): 1498–1503 .
|
ZHANG Sheng, CHEN Li, et al. 2013. Application research of enhanced in-situ micro-ecological remediation for oil contaminated soil. Journal of Modern Agriculture, 2(4): 63–68 .
|
ZHANG Sheng, CHEN Li, et al. 2011. Application research of microbial and ecological remediation for oil contaminated soil in Central Plains. Microbiology China, 38(4): 615–620 .
|
ZHANG Sheng, CHEN Li, et al. 2008. Experimental study on in-situ micro-ecological remediation for oil contaminated soil in loess region of North Shaanxi Province. Journal of Agro-Environment Science, 27(6): 2200–2205 .
|
Rabus R, Kube M, et al. 2005. The genome sequence of an anaerobic aromatic-degrading denitrifying bacterium, strain EbN1. Archives of Microbiology, 183(1): 27–36 .
|
Mishra S, Jyot J, et al. 2001. In situ bioremediation potential of an oily sludge-degrading bacterial consortium. Current Microbiology, 43(5): 328– 335 .
|
LIN Li, YANG Hui-fang, et al. 2000. Study on bioremediation of petroleum-polluted soil. Shanghai Environmental Science, (7): 325– 329 .
|
DeBont J A M. 1998. Solvent-tolerant bacteria in biocatalysis. Trends in Biotechnology, 16(12): 493–499 .
|
J?rgensen K S, Puustinen J, Suortti A M. 2000. Bioremediation of petroleum hydrocarbon- contaminated soil by composting in biopiles. Environmental Pollution, 107(2): 245–254 .
|
Microbiology Department, Institute of Soil Science, Chinese Academy of Sciences. 1985. Microbial research method of soil. Beijing: Science Press .
|
ZHANG Sheng, CHEN Li, et al. 2010. Experimental study of microbial remediation for oil contaminated soil in central plains. South-to-North Water Transfers and Water Science & Technology, 8(6): 46–49 .
|
ZHANG Sheng, BI Er-ping, et al. 2009. Experimental study on microbial remediation of petroleum polluted groundwater. Geoscience, 23(1): 120–124 .
|
LIN Li, YANG Hui-fang, JIA Xing-fang. 2000. Research on biological renovation of petroleum contaminated soil. Shanghai Environmental Sciences, (7): 325–329 .
|
Chaerun S K, Kazue T, et al. 2004. Bioremediation of coastal areas 5 years after the Nakhodka oil spill in the Sea of Japan: Isolation and characterization of hydrocarbon-degrading bacteria. Environment International, 30(7): 911–922 .
|
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