高浓度TCE污染生物修复技术研究进展
|
摘要
三氯乙烯(Trichloroethylene,TCE)是重要的化工原料、中间体和有机溶剂,因其难溶于水、难降解、毒性大的特性,一旦进入环境将对人类及生态环境产生长期的危害。研究高浓度TCE污染生物修复技术原理及影响因素,对污染场地生物修复工程实践具有重要的指导意义。
Trichloroethylene(TCE) is an important chemical raw material, intermediate and organic solvent. Because of its insolubility in water, high persistence in the environment and high toxicity, it will cause long-term harm to humans and biota once enters the environment. Investigation of the principle and influencing factors of the bioremediation technologies for high-concentration TCE is of great significance for the contaminated sites bioremediation engineering.
Trichloroethylene(TCE) is an important chemical raw material, intermediate and organic solvent. Because of its insolubility in water, high persistence in the environment and high toxicity, it will cause long-term harm to humans and biota once enters the environment. Investigation of the principle and influencing factors of the bioremediation technologies for high-concentration TCE is of great significance for the contaminated sites bioremediation engineering.
引文
[1]刘志培,杨慧芳,周培谨.苯胺降解菌的分离和特性研究[J].环境科学学报,1999,19(2):174-179.
[2]Lorah M M,Olsen L D,Capone D G,et al.Biodegradation of trichloroethylene and its anaerobic daughter products in freshwater wetland sediments[J].Bioremediation Journal,2001,5(2):101-118.
[3]Hood E D,Major D W,Quinn J W,et al.Demonstration of enhanced bioremediation in a TCE source area at launch complex 34.Cape canaveral air force station[J].Ground Water MonitRemed,2008,28(2):98-107.
[4]McCarty P L.Chu M Y,Kitanidis P K.Electron donor and pH relationships for biologically enhanced dissolution of chlorinated solvent DNAPL in groundwater[J].Eur J Soil Biol,2007,43(5-6):276-282.
[5]Fang Y,Mc Carty P L.Comparison between donor substrates for biologically enhanced tetrachloroethene DNAPLdissolution[J].EnvSci Tech,2002,36(15):34130-3404.
[6]Lee I,Bae J,McCarty P L.Comparison between acetate and hydrogen as electron donors and implications for the reductive dehalogenation of PCE and TCE[J].J Canmm Hydr01,2007,94(1-2):76-85.
[7]Wilson J T,Wilson B H.Biotransformation of trichloroethylene in soil.Applied Environmental Microbiology,1985.49(1):242-243.
[8]吴建峰,沈锡辉,周宇光,等.一株降解对氯硝基苯的Comamonas sp.CNB1的分离鉴定及其降解特性[J].微生物学报,2004,49:8-12.
[9]Jianzhong He,Kirsti M.Ritalahti,Kun-Lin Yang,Stephen S.Koenigsberg,Frank E.L?ffler,Detoxification of vinyl chloride to ethene coupled to growth of an anaerobic bacterium,Nature,2003,Vol.424,62-65.
[10]Jianzhong He,Kirsti M.Ritalahti,Michael R.Aiello,and Frank E.L?ffler,Complete Detoxification of Vinyl Chloride by an Anaerobic Enrichment Culture and Identification of the Reductively Dechlorinating Population as a Dehalococcoides Species,ApplEnironMicrobiol,2003,69(2):996-1003.
[11]Jochen A.Müller,Bettina M.Rosner,Gregory von Abendroth,GailtMeshulam-Simon,Perry L.McCarty,and Alfred M.Spormann,Melecular Identification of the Catabolic Vinyl Chloride Reductase from Dehalococcoides sp.Srain VS and Its Environmental Distribution,ApplEnironMicrobiol,2004,70(8):4880-4888.
[12]William C.Nelson,Robert T.Deboy,Hoda M.Khouri,James F.Kolonay,Robert J.Dodson,Sean C.Daugherty,Lauren M.Brinkac.Genome Sequence of the PCE-Dechlorinating Bacterium Dehalococcoides ethenogenes.Science Vol.2005,307(7).
[13]张文艺,郑泽鑫,占明飞,等.断头河浜水环境原位修复工程示范[J].湖北农业科学,2013(11):2669-2672.
[14]Maymó-Gatell,X.,I.Nijenhuis,and S.H.Zinder,Reductive dechlotination of cis-1,2-dichlroethene and vinyl chloride by“Dehalococcoides ethenogenes.”,Environ.Sci.Technol,2001,35:516-521.
[15]Youlboong Sung,Kirsti M.Ritalahti,Robert P.Apkarian and Frank E.L ffler,Quantitative PCR Confirms Purity of Strain GT,a Novel Trichloroethene-to-Ethene Respiring Dehalococcoides Isolate,Appl Eniron Microbiol,2006,72(3):1980-1987.
[16]Alison M.Cupples,Alfred M.Spormann,and Perry L.McCarty,Growth of a Dehalococcoides-Like Microorganism on Vinyl Chloride and cis-Dichloroethene as Electron Acceptors as Determind by Competitive PCR,Appl Eniron Microbiol,2003,69(2):953-959.
[17]Jon K.Magnuson,Margaret F.Romine,David R.Burris,and mark T.Kingsley,Trichloroethene Reductive Dehalogenase from Dehalococcoides ethenogenes:Sequence of tceA and Substrate Range Characterization,Appl.Environ.Microbiol,2000,66(12):5141-5147.
[18]H lscher,T.,R.Krajmalnik Brown,K.M.Ritalahti,F.von Wintzingerode,H.G?rischer,F.E.L?ffler,et al.,Multiple nonidentical reductive-dehalogenase-homologous genes are common in Dehalococcoides,Appl.Environ.Microbiol,2004,70:5290-5297.
[19]R.Krajmalnik-Brown,T.H?lscher,I.N.Thomson,F.M.Saunders,K.M.Ritalhti,F.E.L?ffler,Genetic identification of a putative vinyl chloride reductase in Dehalococcoides sp.strain Bav1,Appl.Environ.Microbiol,2004,70:6347-6351.
[20]Heidrum.Rosenthal,Lorenz Adrian,Martin Steiof,Dechlorination of PCE,in presence of FeO,enhanced by a mix culture,Chemosphere,2004,55:661-669.
[21]Alison S.Waller,Rosa Krajmalnik-Brown,Frank E L?ffler,and Elizabeth A.Edwards,Multiple ReductiveDehalogenase-Homologous Genes Are imultaneously Transcribed during Dechlorination by Dehalococcoides-Containing Cultures,2005,71(12):8257-8264.
[22]Rosa Krajmalnik-Brown,Youlboong Sung,Kirsti M.Ritalahti,F.Michael Sauders and Frank E.L?ffer,Environmental distribution of the trichloroethene reductive dehalogenase gene(tceA)suggests lateral gene transfer among Dehalococoides,FEMS Microbiol Ecol,2007,59:206-214.
[23]Taiki Futagami,Yuki Morono,Takeshi Terada,Anna H.Kaksonen and Fumio Inagaki,Dehalogenation Activities and Distribution of Reductive Dehalogenase Homologous Genes in Marine Subsurface Sediments,Applied and Environmental Microbiology,2009,75(21):6905-6909.
[24]Christophe Regeard,Julien Maillard,Christof Holliger,Development of degenrate and specific PCR primers for the detection and isolation of known and putative chlroethene reductive dehalogenase genes,Journal of Microbiological Method,2004,56:107-118.
[25]Rojas-Avelizapa N G,Rodríguez-Vázquez R,SavalBohorquez S,et al.Effect of C/N/P ratio and nonionic surfactants on polychlorinated biphenyl biodegradation[J].World Journal of Microbiology and Biotechnology,2000,16(4):319-324.
[26]Joner E J,CorgiéS C,Amellal N,et al.Nutritional constraints to degradation of polycyclic aromatic hydrocarbons in a simulated rhizosphere[J].Soil Biology and Biochemistry,2002,34(6):859-864.
[27]Byl T D,Williams S D.Biodegradation of chlorinated ethenes at a Karst site in Middle Tennessee.Water Resource Investigations Report No.99-4285 of U.S,2000.
[2]Lorah M M,Olsen L D,Capone D G,et al.Biodegradation of trichloroethylene and its anaerobic daughter products in freshwater wetland sediments[J].Bioremediation Journal,2001,5(2):101-118.
[3]Hood E D,Major D W,Quinn J W,et al.Demonstration of enhanced bioremediation in a TCE source area at launch complex 34.Cape canaveral air force station[J].Ground Water MonitRemed,2008,28(2):98-107.
[4]McCarty P L.Chu M Y,Kitanidis P K.Electron donor and pH relationships for biologically enhanced dissolution of chlorinated solvent DNAPL in groundwater[J].Eur J Soil Biol,2007,43(5-6):276-282.
[5]Fang Y,Mc Carty P L.Comparison between donor substrates for biologically enhanced tetrachloroethene DNAPLdissolution[J].EnvSci Tech,2002,36(15):34130-3404.
[6]Lee I,Bae J,McCarty P L.Comparison between acetate and hydrogen as electron donors and implications for the reductive dehalogenation of PCE and TCE[J].J Canmm Hydr01,2007,94(1-2):76-85.
[7]Wilson J T,Wilson B H.Biotransformation of trichloroethylene in soil.Applied Environmental Microbiology,1985.49(1):242-243.
[8]吴建峰,沈锡辉,周宇光,等.一株降解对氯硝基苯的Comamonas sp.CNB1的分离鉴定及其降解特性[J].微生物学报,2004,49:8-12.
[9]Jianzhong He,Kirsti M.Ritalahti,Kun-Lin Yang,Stephen S.Koenigsberg,Frank E.L?ffler,Detoxification of vinyl chloride to ethene coupled to growth of an anaerobic bacterium,Nature,2003,Vol.424,62-65.
[10]Jianzhong He,Kirsti M.Ritalahti,Michael R.Aiello,and Frank E.L?ffler,Complete Detoxification of Vinyl Chloride by an Anaerobic Enrichment Culture and Identification of the Reductively Dechlorinating Population as a Dehalococcoides Species,ApplEnironMicrobiol,2003,69(2):996-1003.
[11]Jochen A.Müller,Bettina M.Rosner,Gregory von Abendroth,GailtMeshulam-Simon,Perry L.McCarty,and Alfred M.Spormann,Melecular Identification of the Catabolic Vinyl Chloride Reductase from Dehalococcoides sp.Srain VS and Its Environmental Distribution,ApplEnironMicrobiol,2004,70(8):4880-4888.
[12]William C.Nelson,Robert T.Deboy,Hoda M.Khouri,James F.Kolonay,Robert J.Dodson,Sean C.Daugherty,Lauren M.Brinkac.Genome Sequence of the PCE-Dechlorinating Bacterium Dehalococcoides ethenogenes.Science Vol.2005,307(7).
[13]张文艺,郑泽鑫,占明飞,等.断头河浜水环境原位修复工程示范[J].湖北农业科学,2013(11):2669-2672.
[14]Maymó-Gatell,X.,I.Nijenhuis,and S.H.Zinder,Reductive dechlotination of cis-1,2-dichlroethene and vinyl chloride by“Dehalococcoides ethenogenes.”,Environ.Sci.Technol,2001,35:516-521.
[15]Youlboong Sung,Kirsti M.Ritalahti,Robert P.Apkarian and Frank E.L ffler,Quantitative PCR Confirms Purity of Strain GT,a Novel Trichloroethene-to-Ethene Respiring Dehalococcoides Isolate,Appl Eniron Microbiol,2006,72(3):1980-1987.
[16]Alison M.Cupples,Alfred M.Spormann,and Perry L.McCarty,Growth of a Dehalococcoides-Like Microorganism on Vinyl Chloride and cis-Dichloroethene as Electron Acceptors as Determind by Competitive PCR,Appl Eniron Microbiol,2003,69(2):953-959.
[17]Jon K.Magnuson,Margaret F.Romine,David R.Burris,and mark T.Kingsley,Trichloroethene Reductive Dehalogenase from Dehalococcoides ethenogenes:Sequence of tceA and Substrate Range Characterization,Appl.Environ.Microbiol,2000,66(12):5141-5147.
[18]H lscher,T.,R.Krajmalnik Brown,K.M.Ritalahti,F.von Wintzingerode,H.G?rischer,F.E.L?ffler,et al.,Multiple nonidentical reductive-dehalogenase-homologous genes are common in Dehalococcoides,Appl.Environ.Microbiol,2004,70:5290-5297.
[19]R.Krajmalnik-Brown,T.H?lscher,I.N.Thomson,F.M.Saunders,K.M.Ritalhti,F.E.L?ffler,Genetic identification of a putative vinyl chloride reductase in Dehalococcoides sp.strain Bav1,Appl.Environ.Microbiol,2004,70:6347-6351.
[20]Heidrum.Rosenthal,Lorenz Adrian,Martin Steiof,Dechlorination of PCE,in presence of FeO,enhanced by a mix culture,Chemosphere,2004,55:661-669.
[21]Alison S.Waller,Rosa Krajmalnik-Brown,Frank E L?ffler,and Elizabeth A.Edwards,Multiple ReductiveDehalogenase-Homologous Genes Are imultaneously Transcribed during Dechlorination by Dehalococcoides-Containing Cultures,2005,71(12):8257-8264.
[22]Rosa Krajmalnik-Brown,Youlboong Sung,Kirsti M.Ritalahti,F.Michael Sauders and Frank E.L?ffer,Environmental distribution of the trichloroethene reductive dehalogenase gene(tceA)suggests lateral gene transfer among Dehalococoides,FEMS Microbiol Ecol,2007,59:206-214.
[23]Taiki Futagami,Yuki Morono,Takeshi Terada,Anna H.Kaksonen and Fumio Inagaki,Dehalogenation Activities and Distribution of Reductive Dehalogenase Homologous Genes in Marine Subsurface Sediments,Applied and Environmental Microbiology,2009,75(21):6905-6909.
[24]Christophe Regeard,Julien Maillard,Christof Holliger,Development of degenrate and specific PCR primers for the detection and isolation of known and putative chlroethene reductive dehalogenase genes,Journal of Microbiological Method,2004,56:107-118.
[25]Rojas-Avelizapa N G,Rodríguez-Vázquez R,SavalBohorquez S,et al.Effect of C/N/P ratio and nonionic surfactants on polychlorinated biphenyl biodegradation[J].World Journal of Microbiology and Biotechnology,2000,16(4):319-324.
[26]Joner E J,CorgiéS C,Amellal N,et al.Nutritional constraints to degradation of polycyclic aromatic hydrocarbons in a simulated rhizosphere[J].Soil Biology and Biochemistry,2002,34(6):859-864.
[27]Byl T D,Williams S D.Biodegradation of chlorinated ethenes at a Karst site in Middle Tennessee.Water Resource Investigations Report No.99-4285 of U.S,2000.
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |