Advanced search
Publication Cover
Critical Reviews in Microbiology Volume 20, 1994 - Issue 1
Submit an article Journal homepage
59
Views
52
CrossRef citations to date
0
Altmetric
Research Article

Biodegradation of Hexachlorocyclohexane Isomers in Soil and Food Environment

Padmakar G. Deo Department of Infestation Control and Protectants, Central Food Technological Research Institute, Mysore, India
,
N. Ganesh Karanth Department of Infestation Control and Protectants, Central Food Technological Research Institute, Mysore, India
,
N. Gopalakrishna Department of Infestation Control and Protectants, Central Food Technological Research Institute, Mysore, India
&
K. Karanth Department of Infestation Control and Protectants, Central Food Technological Research Institute, Mysore, India
Pages 57-78 | Published online: 25 Sep 2008

References

  • Alexander M. Biodegradation of chemicals of environmental concern. Science 1981; 211: 132
  • Alexander M. Biodegradation of organic chemicals. Environ. Sci. Technol. 1985; 19: 106
  • Crawford R. L., Mohn W. W. Microbial removal of pentachlorophenol from soil using a Flavobacterium. Enzyme Microb. Technol. 1985; 7: 617
  • Ghosal D., You J. S., Chatterjee D. K., Chakrabarty A. M. Plasmids in the degradation of chlorinated aromatic compounds. Plasmids in Bacteria, D. R. Helinski, S. N. Cohen, D. B. Clewell, D. A. Jackson, A. Hollaender. Plenum Press, New York 1985; 667
  • Harker A. R., Olson R. H., Seidler R. J. Phenoxyacetic acid degradation by the 2, 4-dichlorophenoxyacetic acid (TFD) pathway of plasmids pJP4: mapping and characterization of the TFD regulatory gene ifdR. J. Bacteriol. 1989; 171: 314
  • Karns J. S., Kilbane J. J., Duttagupta S., Chakrabarty A. M. Microbial biodegradation of 2,4,5-trichlorophenoxyacetic acid and chlorophenols. Genetic Control of Environmental Pollutants, G. S. Omenn, A. Hollander. Plenum Press, New York 1983; 3
  • Knackmuss H. J. Degradation of halogenated and sulfonated hydrocarbons. Microbial Degradation of Xenobiotic and Recalcitrant Compounds, T. Leisinger, A. M. Cook, R. Hutter, J. Nuesch. Academic Press, London 1981; 189
  • Kobayashi H., Rittmann B. E. Microbial removal of hazardous organic compounds. Environ. Sci. Technol. 1982; 16: 170
  • Lal R., Saxena D. M. Accumulation, metabolism and effects of organochlorine insecticides on microorganisms. Microbiol. Rev. 1982; 46: 95
  • Marks T. S., Smith A. R. W., Quirk A. V. Degradation of 4-chlorobenzoic acid by Arthrobacter sp. Appl. Environ. Microbiol. 1984; 48: 1020
  • O'Reilly K. T., Crawford R. L. Degradation of pentachlorophenol by polyurethane-immobilized Flavobacterium cells. Appl. Environ. Microbiol. 1989; 55: 2113
  • Pembertom J. M. Degradative plasmids. Int. Rev. Cytol. 1983; 84: 155
  • Reineke W. Microbial degradation of halogenated aromatic compounds. Microbial Degradation of Organic Compounds, D. T. Gibson. Marcel Dekker, New York 1984; 319
  • National Research Council Committee on the Assessment of Polychlorinated Biphenyls in the Environment. National Academy of Sciences, Washington, D.C. 1979
  • Sayler G. S., Kong H. L., Shields M. S. Plasmid mediated biodegradative fate of monohalogenated biphenyls in facultative anaerobic sediments. Genetic Control of Environmental Pollutants, G. S. Omenn, A. Hollaender. Plenum Press, New York 1984; 117
  • Stucki G., Brunner W., Staub D., Leisniger T. Microbial degradation of C1 and C2 hydrocarbons. Microbial Degradation of Xenobiotics and Recalcitrant Compounds, A. M. Cook, R. Hutter, J. Nuesch. Academic Press, London 1987; 131
  • Tiedje J. M., Boyd S. A., Fathepure B. Z. Anaerobic degradation of chlorinated aromatic hydrocarbons. Dev. Ind. Microbiol. 1987; 27: 117
  • Wood J. M. Chlorinated hydrocarbons: oxidation in the biosphere. Environ. Sci. Technol. 1982; 16: 291A
  • Reineke W., Knackmuss H. J. Microbial degradation of haloaromatics. Ann. Rev. Microbiol. 1988; 42: 263
  • Chaudhry G. R., Chapalamadugo S. Biodegradalion of halogenated organic compounds. Microbiol. Rev. 1991; 55: 59
  • Hardman D. G. Biotransformation of halogenated compounds. Crit. Rev. Biotechnoi 1991; 11: 1
  • Mohn W. W., Tiedje J. M. Microbial reductive dehalogenation. Microbiol. Rev. 1992; 56: 482
  • Van Der Meer J. R., De Vos W. M., Harayama S., Zehnder A. J. B. Molecular mechanisms of genetic adaptation to xenobiotic compounds. Microbiol. Rev. 1992; 56: 677
  • Macholz R. M., Kujawa M. Recent state of lindane metabolism. III. Residue Rev. 1985; 94: 119
  • Brooks G. T. Chlorinated Insecticides. Biological and Environmental Aspects. CRC Press, Boca Raton 1974; Vol. 2: 102
  • Goto M. Organochlorine compounds in the environment in Japan. Pestic Terminal Residues, A. S. Tahori, Butterworth, 1971; 105, Invited paper, Int. Symp.
  • Benezet H. J., Matsumura F. Isomerization of gamma BHC to alfa BHC in me environment. Nature (London) 1973; 243: 480
  • Kamada T. Hygienic studies of pesticide residues. Report No. 1. Accumulation of BHC isomers in the body of rat and urinary excretions following oral administration. Jpn. Hyg. 1971; 26: 358
  • Tatsukawa R., Wakimoto T., Ogawo T. BHC residues in the environment. Environmental Toxicology of Pesticides, F. Matsumura, G. M. Bousch, T. Misato. Academic Press, New York 1972; 229
  • Ishikura H. Impact of pesticide use on the Japanese environment. Environmental Toxicology of Pesticides, F. Matsumura, G. M. Bousch, T. Misato. Academic Press, New York 1972; 1
  • MacRae I. C., Raghu K., Castro T. F. Persistence and biodegradation of four common isomers of BHC in submerged soils. J. Agric. Food Chem. 1967; 15: 911
  • Siddaramappa R., Sethunathan N. Persistence of gamma BHC and beta-BHC in Indian rice soils under flooded conditions. Pestic. Sci. 1975; 6: 395
  • Indian Agricultural Research Institute. Research contributions in the field of pesticides from the Division of Agricultural Chemicals. Pesticides 1978; 12: 1
  • Heritage A. D., MacRae I. C. Degradation of hexachlorohexanes and structurally related substances by Clostridium sphenoides. Aust. J. Biol. Sci. 1979; 32: 493
  • MacRae I. C., Yamaya Y., Yoshida T. Persistence of hexachlorocyclohexane isomers in soil suspensions. Soil Biol. Biochem. 1984; 16: 285
  • Sahu S. K., Patnaik K. K., Sharmila M., Sethunathan N. Degradation of alpha-, beta-, and gamma-hexachlorocyclohexane by a soil bacterium under anaerobic conditions. Appl. Environ. Microbiol. 1990; 56: 3620
  • Kawahara T. Disappearance of BHC isomers in petri dish at room temperature. Novaka Kensasho Hokoku 1972, No. 12: 46
  • Kawahara T. Disappearance of BHC isomers in water. Novoka Kensasho Hokoku 1972, No. 12: 49
  • Chisato H., Kyoto K. Residues of chlorinated hydrocarbon insecticides in some components of the Koso river in Kochi five years after the prohibition of their use. Bochu-Kogu 1975; 40: 132
  • Haider K. Degradation and metabolism of lindane and other HCH isomers by anaerobic and aerobic soil microorganisms. Z. Naturforsch C. Biosci. 1979; 34C: 1066
  • Bachmann A., Bruin W. D., Jumelet J. C., Rijnaarts H. H. N., Zehnder A. J. B. Aerobic biomineralization of alpha-hexachlorocyclohexane in contaminated soil. Appl. Environ. Microbiol. 1988; 54: 548
  • Senoo K., Wada H. Isolation and identification of an aerobic gamma hexachlorocyclohexane degrading bacterium from soil. Soil Science 1989; 35: 79
  • Karanth N. G. K., Srimathi M. S., Majumder S. K. Inhibition arrest of dehydrogenase and phytoactivities by soil incorporation of hexachlorocyclohexane degrading bacteria. Pest. Management 1984; 3: 3
  • Srimathi M. S. Interactions between Crops and Pesticides in Soil with Special Reference to the Abatement of Residues in Food. Ph.D. thesis, University of Mysore, Mysore, India 1986
  • Karanth N. G. K., Jayaram M., Majumder S. K. Observations on the growth and residue level of insecticides in vegetable plants raised on hexachlorocyclohexane treated soil. Comp. Physiol. Ecol. 1983; 8: 357
  • Srimathi M. S., Karanth N. G. K., Majumder S. K. Changes in the chemical composition of plants subjected to stress from BHC treated soil. Pest. Manag. 1985; 5: 21
  • Saha J. G. Metabolism of 14c lindane in plants and animals: origin and fate of chemical residues in food, agriculture and fisheries. Proc. Res. Co-ord. Meeting. Vienna IAEA, Vienna 1975; 149
  • Snelson J. T. Fate of persistent pesticides in the agricultural environment with particular emphasis on the application of nuclear techniques, in Agrochemicals Fate in Food and the Environment. Proceeds of a symposium jointly organized by IAEA and FAO. 1982; 74
  • Mirna A., Hecht H., Coretti A. Origin and fate of chemical residues in food, agriculture and fisheries. Influence of processing on the r-HCH content of meat products. Proc. Rep. Res. co-ordination meetings. IAEA, 1975; 115
  • Kumar N. R., Amit Nath, Bhalla O. P. Organochlorine insecticide residues in commercial brands of baby milk powder. Pest. Res. J. 1992; 41: 51
  • Duggan R. E., Lipscomb G. R. Regulator control of pesticide residues in food. J. Dairy Sci. 1971; 701: 695
  • DFG (Deutsche Forschungsgemeinschaft) Hexachloro-cyclohexane — Kontamination — Ursachen, Situation and Bewertung. Kommission zur Prüfung von Rückständen in Lebensmitteln. Mitteilungen IX 1982. Residue Rev. 1984; 94: 119, Quoted from
  • IARC. Monographs on the evaluation of the carcinogenic risk of chemicals to humans: Hexachlorocyclohexane (technical HCH and Lindane). 1979; 20: 195
  • Mottram D. S., Psomas I. E., Patterson R. L. S. Chlorinated residues in the adipose tissue of pigs treated with gamma hexachlorocyclohexane. J. Sci. Food Agric 1983; 34: 378
  • Bieniok R. Veiteilung von 14 C Lindan auf Blut and Organe dev Ratte und Stoffwechselveranderungen bei Ratte und Mous unter Lindaneinflu B, Thesis, Universitat Mainz (1979). Residue Rev. 1984; 94: 119, Quoted from
  • Lievremont M., Le Flohic J. F., Pascaud M. Distribution du 14c- lindane chez de rat apres administration d'une dose unique par voies intraperitoneal et intraveneuse. C.R. Acad. Sci. 1981; 292(III (No. 1))45
  • Kurihara U., Tanaka K., Nakajima M. Pathways of chlorophenylmercapturic acid formation in biodegradation of lindane. Agric. Biol. Chem. 1977; 41: 1317
  • Tanaka K., Kurihara N., Nakajima M. Pathways of chlorophenol formation in oxidative biodegradation of BHC. Agric. Biol. Chem. 1977; 41: 723
  • Portig J., Kraus P., Stein K., Koransky W., Noack G., Gross B., Sodomann S. Glutathione conjugate formation from hexachlorocyclohexane and pentachlorocyclohexene by rat liver in vitro. Xenobiotica 1979; 9: 353
  • Stein K., Portig J. Naunyn—Schmiedebergs. Arch. Pharmacol. 1976; 293: 51, Oxidative transformation of hexachlorocyclohexane in the rat. XVII. Spring Meeting. Deutsche Pharmakologische Gesellschaft, Mainz, March 23–26 (1976), Suppl. R.
  • Chadwick R. W., Copeland M. F., Rosenstein L. Dose-response effects from kepone exposure during gestation and lactation on the metabolism of lindane by weaning rats. Toxicol. Appl. Pharmacol. 1979; 48: A93
  • Engst R., Machol R. M., Kujawa M. Recent state of lindane metabolism. I. Residue Rev. 1977; 68: 59
  • Engst R., Macholz R. M., Kujawa M. Recent state of lindane metabolism. EL, Residue Rev. 1979; 72: 71
  • Kujawa M., Macholz R. M., Schulze J. Bedeutung der Gastrointestinalflora fü denRremdstoff—Metobolisms. Symposium Stand undPerspektiven der Gastrointestinalen Mikrookologie. GDR, Postdam 1984; 24: 4
  • Kujawa M., Engst R., Macholz R. On the metabolism of lindane. Environmental Pollution and Human Health, S. H. Zaidi. Ind. Toxicol. Res. Centre, Lucknow, India 1975, Proc. Int. Symp. Indust Toxicol. Nov. 4–7
  • Angerer J., Mass R., Heinrich R. Occupa tional exposure to hexachlorocyclohexane. VI. Me tabolism of gamma-hexachlorocyclohexane in man. Int. Arch. Occup. Environ. Health 1993; 252: 59
  • Chadwick R. W., Copeland M. F., Chadwick C. J. Enhanced pesticide metabolism, a previously unreported effect of dietary fibre in mammals. Food Cosmet. Toxicol. 1978; 16: 217
  • Chadwick R. W., Faeder E. J., King L. C., Copeland M. F., Williams K., Chuang L. T. Effect of acute and chronic Cd exposure on lindane metabolism. Ecotoxicol. Environ. Safety 1978; 2: 301
  • Chadwick R. W., Copeland M. F., Mole M. L., Nesnow S., Cooke N. Comparative effect of pretreatment with phenobarbital aroclor 1254 and betanaphthoflavone on the metabolism of lindane. Pest. Biochem. Physiol. 1981; 15: 120
  • Fukami J. I. Metabolism of several insecticides by glutathione S-transferase. Pharmac. Ther. 1977; 10: 473
  • Cooper P. Hexachlorobenzene metabolism mainly in the rat. Food Cosmet. Toxicol. 1978; 16: 287
  • Debets F. M. H., Strik J. J. T. W. A. An approach to elucidate the mechanism of hexachlorobenzene induced hepatic porphyria as a model for the hepatoxicity of polyhalogenated aromatic compounds cited in. Chemical Porphyria in Man, J. J. T. W. A. Strik, J. H. Koeman. Elsevier, Amsterdam 1979
  • Renner J. Biotransformation of the fungicides hexachlorobenzene and pentachloronitrobenzene. Xenobiotica 1981; 21: 435
  • Strik J. J. T. W. A., Debets F. M. H. Chemical phorphyria in halogenated biphenyls, terpenyls, naphthalenes, dibenzodioinds and related products, R. D. Kimbrough. Elsevier, Amsterdam 1980
  • Koss C, Koransky W., Steinbach K. Studies on the toxicology of hexachlorobenzene. IV. Sulphur containing metabolites. Arch. Toxicol. 1979; 42: 19
  • Lamoureux G. L., Rusness D. G. Pentachloronitrobenzene metabolism in peanut I. Mass spectral characterization of seven glutathione related conjugates produced in vivo or in vitro. J. Agric. Food Chem. 1980; 28: 1057
  • Lamoureux G. L., Rusness D. G. In vitrometabolism of pentachloronitrobenzene to pentachloro-methylthiobenzene by onion: characterization of glu-tathione-S-transferase, Cysteine C-S lyase and S-adenosyl-methionine methyl transferase activities. Pest. Biochem. Physiol. 1980; 14: 50
  • Rusness D. G., Lamoureux G. L. Pentachloro-nitrobenzene metabolism in peanut. II. Characterization of chloroform soluble metabolites produced in vivo. J. Agric. Food Chem. 1980; 28: 1070
  • Rentier J L. Formation of the pentachlorothioanisole from N-acetyl-S-(pentachlorophenyl) cysteine. Life Sci. 1983; 33: 1427
  • Kimura R., Kawai M., Sato M., Aimoto T., Murata T. Induction of hepatic microsomal drug metabolizing enzymes by sulfur-containing metabolites of chlorinated benzenes in rats. Toxicol. Appl. Pharmacol. 1983; 67: 338
  • Bakke J. E., Ashbacher P. W., Feil V. J. The metabolism of pentachlorothiobenzene in germ-free and conventional rats. Xenobiorica 1981; 11: 173
  • Gebefuegi I., Parlar H. Zur Risikoabschatzung von pentachlorophenol in der Umwelt — Verhalten, Vorkommen und Konsequenzen. GSF — Bericht OE414. Gesellschaft fur Strahlen-und Umweltforschung Mbtl., Muenchen 1978
  • IUPAC (Commission on Pesticide Chemistry). Environmental chemistry of pentachlorophenol. Reports on pesticides, 14. Pure Appl. Chem. 1981; 53: 1051
  • Suzuki T. Metabolism of pentachlorophenol by soil microorganisms. Bull. Natl. Inst. Agric. Sci. 1983; C38: 69, (in Japanese)
  • Ahlborg U., Thunberg T. M. Chlorinated phenols: occurrence, toxicity, metabolism and environmental impact. CRC Crit. Rev. Toxicol 1980; 7: 1
  • Steinwandter H. Lindane metabolism in plants, II. Formation of alfa hexachlorocyclohexane. Chemo-sphere 1976; 5: 221
  • Newland L. W., Chesters G., Loe G. B. Degradation of gamma BHC in simulated lake impoundment as affected by aeration. J. Water Pollut. Control Fed. 1969; 41: 174
  • Steinwandter H. Contributions to the conversion of HCH isomers by the action of UV light. I. Isomeriza-tion of lindane to alpha-HCH. Chemosphere 1976; 5: 245
  • Deo P. G., Hasan S. B., Majumder S. K. Isomerization of beta-HCH in aqueous solution. J. Environ. Sci. Health. 1980; B-15: 147
  • Slade R. E. The gamma isomer of hexachlorocyclohexane, Burter memorial lecture. Chem. Ind. 1945; 64: 314
  • Orloff H. D. The sterioisomerism of cyclohexane derivatives. Chem. Rev. 1954; 54: 347
  • The Merck Index, 9th ed., M. Windholz, S. Budavari, L. Y. Stroumtsos, M. N. Fertig. Merck, Rahway, N.J. 1976; 719–720
  • Colson J. G. Kirk-Othmer Encyclopedia of Chemical Technology. John Wiley-Interscience. 1979; Vol. 5: 808
  • Wheatstone L. W., Davis F. C., Ballard S. A. Interconversion of hexachlorocyclohexane isomers. J. Am. Chem. Soc 1953; 75: 1768
  • Kawahara T., Moku D. Degradation of BHC by heating. Noyaka Kensasho Hokoku 1972, No. 12: 135
  • Roemer M. J., Bienick D., Korte F. High-pressure reactions. V. High-pressure isomerization of alpha-HCH to gamma and delta isomers. Tetrahedron Lett. 1972; 47: 4807
  • Steinwandter H. Experiments on lindane metabolism in plants, in. Formation of beta-HCH. Bull. Environ. Contamin. Toxicol. 1978; 20: 535
  • Steinwandter H., Schlueter H. Experiments on lindane metabolism in plants. Bull. Environ. Contamin. Toxicol. 1978; 20: 174
  • Steinwandter H. Contribution of lindane metabolism in the ecosphere. Landwirtsch Forsch Sondarh 1976; 33: 208
  • Tanaka K., Kurihara N., Nakajima M. Oxidative metabolism of lindane and its isomers with microsomes from rat liver and housefly abdomen. Pest. Biochem. Physiol. 1979; 10: 96
  • Gopalaswamy U. V., Phondke M. P., Aiyer A. S. (1979) Proc. Int. Symp. Use of Isotopes for Research and Control of Vectors of Animal Diseases, Host-Pathogen Relationships and the Environmental Impact of Control Procedures. Biotransformation of lindane in mammals and its significance for safety assessment of the pesticide. Int. Atomic Energy Agency, Vienna, May 7–11, 1979
  • Stein K., Portig J., Koransky W. Oxidative transformations of hexachlorocyclohexane in rats and with rat liver microsomes. Arch. Pharmacol. 1977; 298: 115
  • Freal J. J., Chadwick R. W. Metabolism of hexachlorocyclohexane to chlorophenols and effect of isomer pretreatment on lindane metabolism in rats. J. Agric. Food Chem. 1973; 21: 424
  • Koransky W., Munch G., Noack G., Portig J., Sodomann S., Wirching M. Biodegradation of alpha-hexachlorocyclohexane. V. Characterization of the major urinary metabolites. Arch. Pharmacol. 1975; 288: 65
  • Tanaka K., Kurihara N., Nakajima M. Oxidative metabolism of tetrachlorocyclohexenes, pentachlorocyclohexenes and hexachlorocyclohexenes with microsomes from rat liver and housefly abdomen. Pest. Biochem. Physiol 1979; 10: 79
  • Heeschen W., Nijhuis H., Bluethgen A. Untersuchungen zur Bedeutung des Umund Abbaus von Hexachlorocyclohexan (HCH) in Milchtier und in der Umwelt fur the HCH — Kontamination der Milch. Milckwissenschaft 1980; 35: 221
  • Tanaka K., Kurihara N., Nakajima M. Metabolism of lindane in houseflies. Metabolic desaturation, dehydrogenation and dehydrochlorina-tion and conjugation with glutathione. Pest. Biochem. Physiol. 1976; 6: 392
  • Chadwick R. W., Chung L. T., Williams K. Dehydrogenation: a previously unreported pathway of lindane metabolism in mammals. Pest. Biochem. Physiol 1975; 5: 575
  • Pistor R. Untersuchung zur elimination von Lindane durch Ratten. Ph.D. thesis, Universität Margburg. 1980
  • Vohland H. W., Portig J., Stein K. Neuropharmacological effects of isomers of hexa-chlorocyclohexane. Toxicol. Appl. Pharmacol. 1981; 47: 425
  • Noack G., Portig J., Wirsching M. Biodegra-dation of alpha-hexachlorocyclohexane. IV. Extent of degradation of single dose in vivo. Arch. Pharmacol. 1975; 288: 57
  • Yule W. N., Chiba M., Morley H. B. Fate of insecticide residues. Decomposition of lindane in soil. J. Agric. Food Chem. 1967; 15: 1000
  • Francis A. J., Spanggord R. J., Ouchi G. I. Degradation of lindane by Escherichia coli. Appl. Microbiol. 1975; 29: 567
  • Nash R. G., Harris W. G. Chlorinated hydrocarbon insecticide residues in crops and soil. J. Environ. Qual. 1973; 2: 269
  • Ishida M., Dahm P. A. Metabolism of benzene hexachloride isomers and related compounds in vitro., I. Properties and distribution of the enzyme. J. Econ. Era. 1965; 58: 383
  • Engst R., Macholz R. M., Kujawa M. Metabolismus von lindane durch schimmelpilz-kulturen. Unkonjugierte metabolite. Nahrung 1974; 18: 737
  • Sweeney R. A. Metabolism of lindane of unicellular algae. Proc. Conf. Great Lakes Res. 1969; 12: 98
  • Reed W. T., Forgash A. J. Lindane metabolism to a new isomer of pentachlorocyclohexene. Science 1968; 160: 1232
  • Engst R., Macholz R. M., Kujawa M-, Lewerenz H. J., Plass R. The metabolism of lindane and its metabolites gamma-2,3,4,5,6-pentachloro-cyclohexene, pentachlorobenzene and pentachlorophe-nol in rats and the pathways of lindane metabolism. J. Environ. Sci. Health, Bll 1976; 95
  • Moza P., Mostafa I., Klein W. Beitraege zur oekologischen chemie. LXXXIX. Orientierende Versuche zum Metabolismus von gamma — Pentachlorocyclohex — 1-en in Hoeheren Pflanzen in Hydrokultur. Chemosphere 1974; 4: 255
  • Reed W. T., Forgash A. J. Metabolism of lindane to organic soluble products by houseflies. J. Agric. Food Chem. 1970; 18: 475
  • Engst R., Macholz R. M., Kujawa M. The metabolism of lindane in a culture of mould and the general degradation scheme of lindane. Chemosphere 1977; 6: 401
  • Engst R., Macholz R. M., Kujawa M. Metabolism of gamma hexachlorocyclohexane in vivo.Metabolism of orally administered gamma — 2, 3,4, 5, 6 — pentachlorocyclohexene. J. Environ. Sci. Health 1978; B13: 425
  • Bachmann A., Walet P., Wijnen P., Bruin W. D., Huntjens J. L. M., Roelofsen W., Zehnder A. J. B. Biodegradation of alpha- and beta-hexachloro-cyclohexane in a soil slurry under different redox conditions. Appl. Environ. Microbiol. 1988; 54: 143
  • Sethunathan N., Rao V. R., Adhya T. K., Raghu K. Microbiology of rice soils. Crit. Rev. Microbiol. 1983; 10: 125
  • Raghu K., MacRae I. E. Biodegradation of the r-isomer of BHC in submerged soils. Science 1966; 154: 263
  • Yoshida T., Castro T. F. Degradation of gamma-BHC in rice soil. Soil Sci. Soc. Am. Proc 1970; 34: 440
  • Ferreira J., Raghu K. Decontamination of HCH isomers in soil by green manure application. Environ. Technol. Lett. 1981; 2: 357
  • Zhang S., An Q., Gu Z., Ma X. Degradation of BHC in soil. Huanjing Kexue 1982; 3: 1
  • MacRae I. C., Raghu K., Bautista E. M. Anaerobic degradation of the insecticide lindane by Clostridiu sp. Nature (London) 1969; 221: 858
  • Fukami H., Kimura H., Nakajima M. Agricultural chemicals by the polarographic method. VII. Electrolysis of gamma-hexachlorocyclohexane with the cathode controlled potential and the determination of small amounts of benzene in aqueous solution. Botyu-Kagaku 1953; 18: 51
  • Beland F. A., Farwell S. O., Robocker A. E., Geer R. D. Electrochemical reduction and anaerobic degradation of lindane. J. Agric. Food Chem. 1976; 24: 753
  • Heritage A. D., MacRae I. C. Identification of intermediates formed during the degradation of hexachlorocyclohexanes by Clostridium sphenoides. Appl. Environ. Microbiol. 1977; 33: 1295
  • Jagnow G., Haider K., Ellwardt P. C. Anaerobic dechlorination and degradation of hexachlorocyclohexane isomers by anaerobic and facultative anaerobic bacteria. Arch. Microbiol. 1977; 115: 285
  • Ohisa N., Yamaguchi M. Gamma BHC degradation accompanied by the growth of Clostridium rectum isolated from paddy field soil. Agric. Biol. Chem. 1978; 42: 1819
  • Ohisa N., Yamaguchi M, Kurihara N. Lindane degradation by cell-free extracts of Clostridium rectum. Arch. Microbiol. 1980; 125: 221
  • Tsukano Y., Kobayashi A. Formation of gamma-BTC in flooded rice field soils treated with gamma-BHC. Agric. Biol. Chem. 1982; 36: 166
  • Matsumura F., Benezet H. J., Patil K. C. Factors affecting microbiol metabolism of gamma-BHC. J. Pest. Sci. 1976; 1: 3
  • Zoro J. A., Hunter J. M., Eglinton G., Ware G. C. Degradation of p, p´-DDT in reducing environments. Nature (London) 1974; 247: 235
  • Miscus R. D., Blair D. P., Casida J. E. Conversion of DDT to DDD by bovine rumen fluid, lake water and reduced porphyrins. J. Agric. Food Chem. 1965; 13: 481
  • Bienick D., Mosa P. N., Klein W., Korte F. Reduktive Dehalogenierung von chlorierten cyclischen Kohlenwasserstoffen. Tetrahedron Lett. 1970; 47: 4055
  • Marks T. S., Allpress J. D., Maule A. Dehalogenation of lindane by a variety of porphyrins and corrins. Appl. Environ. Microbiol. 1989; 55: 1258
  • Assaf-Anid N., Nies L., Vogel T. M. Reductive dechlorination of polychlorinated biphenyls congener and hexachlorobenzene by vitamin B12. Appl. Environ. Microbiol 1992; 58: 1057
  • Kieeka G. M., Gonsior S. J. Reductive dechlorination of chlorinated methanes and ethanes by reduced iron (II) porphyrins. Chemosphere 1984; 13: 391
  • Baxter G. M. Reductive dehalogenation of environmental contaminants: a critical review Water Pollut. Res. J. Can. 1989; 24: 229
  • Gantzer C. J., Wackett L. P. Reductive dechlorination catalyzed by bacterial transition metal coenzymes. Environ. Sci. TechnoL 1991; 25: 715
  • DeWeerd K. A., Suffita J. M. Anaerobic aryl reductive dehalogenation of halobenzoates by cell extracts of Desulfomonile-Tiedjei. Appl. Environ. Microbiol. 1990; 56: 2999
  • Krone U. E., Thauer R. K., Hogenkamp H. P. C. Reductive dehalogination of chlorinated hydrocarbons mediated by corrinoids. Biochemistry 1989; 28: 4908
  • Portig J. Deuteration as a tool in the study of xenobiotic metabolism. Pesticide Chemistry, J. Miyanoto, P. C. Kearney. Pergamon Press. 1983; Vol. 3: 401
  • Stein K., Portig J., Fuhrmann H., Koransky W., Noack G. Steric factors in the pharmacokinetics of lindane and alpha-hexachlorocyclohexane in rats. Xenobiotica 1980; 10: 65
  • Davido B., Frawley J. P. Tissue distribution, accumulation and elimination of the isomers of benzene hexachloride. Proc. Soc. Exp. Biol. Med. 1951; 76: 780

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.