References
- Mohn, W. W. and Tiedje, J. M (1992) Microbial reductive dehalogenation, Microbiological Reviews 56, 482-507
- Suflita, J. M, Horowitz, A., Shelton, D. R., Tiedje, J. M.(1982) Dehalogenation: A novel pathway for the anaerobic biodegradation of halogenated compounds, 218, 115-117 https://doi.org/10.1126/science.218.4568.115
- Tiedje, J. M., Boyd, S. A. and Fathepure, B. Z. (1987)Anaerobic degradation of chlorinated aromatic hydrocarbons, Developments in Industrial Microbiology 27, 117-127
- Mikesell, M D. and Boyd, S. A. (1986) Complete reductive dechlorination and mineralization of pentachlorophenol by anaerobic microorganisms, Applied and Environmental Microbiology 52, 861-865
- McAllister, K. A., Lee, H. and Trevors, J. T. (1996) Microbial degradation of pentachlorophenol, Biodegradation 7,1-40 https://doi.org/10.1007/BF00056556
- Kuwatsuka, S. and Igarashi, M. (1975) Degradation ofPCP in soils II. The relationship between the degradation of PCP and the properties of soils, and theidentification of the degradation products of PCP, Soil Sci. Plant Nutr. 21, 405-414 https://doi.org/10.1080/00380768.1975.10432656
- Secchieri, M, Benassi, C. A., Pastore, S., Semenzato, A.,Bettero, A., Levorato, M. and Guerrato, A. (1991) Rapid pentachlorophenol evaluation in solid matrixes by second derivative UV spectroscopy for application to wood and leather samples, J. Assoc. Off. Amd. Chem. 74, 674-678
- Mendoza-Cantu, A., Albores, A., Fernandez-Linares, L.and Rodriguez-Vazquez, R. (2000) Pentachlorophenol biodegradation and detoxification by the white-rot fungus Phanerochaete chrysosporium, Envirormental Toxicolosy 15, 107-113
- Editonal comimittee of Methods of Soil Environmental Analysis (1997) Methods of Soil Environmental Analysis, Hakuyusha, Tokyo, Japan, p.204-208
- Editorial committee of Soil Nutrient Analysis (1976) Soil Nutrient Analysis, Yokendo, Tokyo, Japan, p.324-332
- Liu, D., Maguire, R. J., Lau, Y. L, Pacepavicius, G.. J.,Okamura, H. and Aoyama, I. (2000) Factors affecting chemical biodegradation, Environmental Toxicology 15,476-483 https://doi.org/10.1002/1522-7278(2000)15:5<476::AID-TOX16>3.0.CO;2-Y
- Ide, A., Niki, Y., Sakamoto, F., Watanabe, I. and Watanabe, H. (1972) Decomposition of pentachlorophenol in paddy soil, Agr. Biol. Chem. 36, 1937-1944 https://doi.org/10.1271/bbb1961.36.1937
- Haggblom, M. H. and Milligan, P. W. (2001) Anaerobic biodegradation of halogenated pesticides Influence of alternate electron acceptors, In Jean-Marc Bollag and G. Stotzky (ed.) Soil Biochemistry, Vol.lO, Marcel DekkerInc., New York, USA, p.1-34
- Tor, J. M, Xu, C, Stucki, J. M, Wander, M M andSims, G. K.(2000) Trifluralin degradation under microbiologically induced nitrate and Fe(III) redudng conditions, Environ. Sci. Technol. 34, 3148-3152 https://doi.org/10.1021/es9912473
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