厌氧颗粒污泥中产甲烷菌的研究进展
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摘要
产甲烷菌在厌氧生物处理方法中起到决定性作用。本文介绍了产甲烷菌在厌氧生物处理技术中的主要作用及提取和鉴定的方法,综述了营养元素和微量元素、温度、pH值、其他菌体对产甲烷菌活性的影响。在此基础上提出了展望。
Methanogens play a decisive role on anaerobic biological treatment. It is involved that the way to extraction and identification methanogens. Activities of methanogens were analyzed and summarized in the aspects of nutrient elements and trace elements、temperatures、pH、influences for other bacteria. The outlooks were made in the related fields.
Methanogens play a decisive role on anaerobic biological treatment. It is involved that the way to extraction and identification methanogens. Activities of methanogens were analyzed and summarized in the aspects of nutrient elements and trace elements、temperatures、pH、influences for other bacteria. The outlooks were made in the related fields.
引文
[1]祖波,祖建,周富春,等.产甲烷菌的生理生化特性[J].环境科学与技术.2008,31(3):5-9.
[2]Boopath R.Isolation and charaeterization of a methanogenic bacterium from swine manure[J].Biorcs Teehnol,1996,55(3),231-235.
[3]周大石.甲烷细菌与沼气发酵[J].生物学通报,1994,3(29):1-3.
[4]张国政.产甲烷菌的一般特征探讨[J].中国沼气,1990,5(8):5-8.
[5]胡亚东,袁月祥,闫志英,等.一株生长pH较宽的产甲烷菌分离与系统发育分析[J].应用与环境生物学报,2009,15(4):554-558.
[6]沙长青,谷军,原韬,等.沼气发酵菌株的分离与性质分析[J].生物技术,2010,20(4):45-47.
[7]Hao X D,Cai Z Q,Fu K M,et al.Distinguishing activity decay and cell death from bacterial decay for two types of methanogens[J].Water Research,2012(46):1251-1259.
[8]Pramanik.Effect of limited nickel availability on methane emission from EDTA treated soils:Coenzyme M an alternative biomarker for methanogens[J].Chemosphere,2013(90):873-876.
[9]McCartney C A,Bull I D,Yan T,et al.Assessment of archaeol as a molecular proxy for methane production in cattle[J].J.Dairy Sci.,2002,(96):1-7.
[10]Daisuke M K.Acceleration of cellulose degradation and shift of product via methanogenic co-culture of a cellulolytic bacterium with a hydrogenotrophic methanogen[J].Journal of Bioscience and Bioengineering,2012,4(114):435-439.
[11]Speece R E.Anacrobic Digestion of Biomass[M].USA:Else-vier Applied Science Pub,1987.
[12]Van den Berg L.Factors affecting rate of methane fer-mentation from acetic acid by enriched methanogenic cul-tures[J].Can Soc Microbiol,1976,22:1313-1319.
[13]张希衡.废水厌氧生物处理工程[C].北京:中国环境科学出版社,1996.
[14]Liu Y C,Laura L B,William B.Methanogens:a window into ancient sulfur metabolism[J].Trends in Microbiology May,2012,20(5):251-258.
[15]Richard D,Pancost Erin L,Mclymont B,et al.Archaeol as a methanogen biomarker in ombrotrophic bogs[J].Organic Geochemistry,2011(42):1279-1287.
[16]宫小燕,宋瑞平,李国学,等.不同温度下有机负荷对厌氧折流板反应器污泥颗粒化的影响[J].环境工程学报,2009,3(5):839-843.
[17]陆正禹,任立人.UASB处理链霉素废水颗粒污泥培养技术探索[J].中国沼气,1997,15(3):11.
[18]朱勇,张选军,张亚雷,等.溶解氧对厌氧颗粒污泥活性的影响[J].环境科学,2007,28(4):781-785.
[19]董春娟,吕炳南,陈志强.微氧条件下厌氧颗粒污泥和消化污泥特性研究[J].南京理工大学学报,2005,29(2):216-222.
[20]Maialen Barret,Nathalie Gagnon,Edward Topp,et al.Physico-chemical characteristics and methanogen communities in swine and dairy manure storage tanks:Spatio-temporal variations and impact on methanogenic Activity[J].Water Research,2013(47):737-746.
[21]马俊科,刘春,吴根,等.工业化UASB厌氧颗粒污泥产氢产乙酸菌群分析[J].浙江大学学报(工学版),2011,45(3):576-581.
[22]Zhang B,Chen Z,Qiu Z,et al.Dynamic and distribution of ammonia-oxidizing bacteria communities during sludge granulation in an anaerobicaerobic sequencing batch reactor[J].Water Research,2011(45):6207-6216.
[23]Talea V P,Makib J S,Struble C A,et al.Methanogen community structure-activity relationship and bioaugmentation of overloaded anaerobic digesters[J].Water Research,2011(45):5249-5256.
[24]Terryj W,Kusel E A.Isolation and characterization of methanogens from animal feces[J].System Appl.Microbiol,1986(8):234-238.
[25]施云芬,孙萌,张更宇.厌氧颗粒污泥研究进展[J].硅酸盐通报,2013,32(4):672-676.
[26]程晓波.厌氧颗粒污泥的性质及其在污水处理中的应用[J].中国市政工程,2010,2(145):43-46.
[27]李建政,刘枫,郭小宇,等.一株产氢产乙酸菌的生长条件及产乙酸特性[J].科技导报,2008,26(5):26-30.
[28]Aaron G,Jim M.Methane and methanogen community dynamics across a boreal peatland nutrient gradient[J].Soil Biology&Biochemistry,2012(8):96-105.
[29]Olga Y Ako,Kitamura Y,Intabon K.Steady state characteristics of acclimated hydrogenotrophic methanogens on inorganic substrate in continuous chemostat reactors[J].Bioresource Technology,2008(99):6305-6310.
[30]Jin W,Cheng Y F,Mao S Y.Isolation of natural cultures of anaerobic fungi and indigenously associated methanogens from herbivores and their bioconversion of lignocellulosic materials to methane[J].Bioresource Technology,2011(102):7925-7931.
[31]Zhang J,Dong H L,Liu D,et al.Microbial reduction of Fe(III)in illite-smectite minerals by methanogen Methanosarcina mazei[J].Chemical Geology,2012:35-44.
[32]Christopher A B,Georgia L,Wolfec M.Microbial diversity and dynamics during methane production from municipal solid waste[J].Waste Management,2013.
[33]Liu D,Wang H M,Dong H L.Mineral transformations associated with goethite reduction by Methanosarcina barkeri[J].Chemical Geology,2011(288):53-60.
[34]Liu D,Dong H L,Michael D,et al.Reduction of structural Fe(III)in nontronite by methanogen Methanosarcina barkeri[J].Geochimica et Cosmochimica Acta,2011(75):1057-1071.
[35]Deborah T,Silvia V,Eugenio L.Application of a real-time qPCR method to measure the methanogen concentration during anaerobic digestion as an indicator of biogas production capacity[J].Journal of Environmental Management,2012(111):173-177.
[36]Zhang J,Dong H L,Liu D,et al.Microbial reduction of Fe(III)in smectite minerals by thermophilic methanogen methanothermobacter thermautotrophicus[J].Geochimica et Cosmochimica Acta,2013(106):203-215.
[2]Boopath R.Isolation and charaeterization of a methanogenic bacterium from swine manure[J].Biorcs Teehnol,1996,55(3),231-235.
[3]周大石.甲烷细菌与沼气发酵[J].生物学通报,1994,3(29):1-3.
[4]张国政.产甲烷菌的一般特征探讨[J].中国沼气,1990,5(8):5-8.
[5]胡亚东,袁月祥,闫志英,等.一株生长pH较宽的产甲烷菌分离与系统发育分析[J].应用与环境生物学报,2009,15(4):554-558.
[6]沙长青,谷军,原韬,等.沼气发酵菌株的分离与性质分析[J].生物技术,2010,20(4):45-47.
[7]Hao X D,Cai Z Q,Fu K M,et al.Distinguishing activity decay and cell death from bacterial decay for two types of methanogens[J].Water Research,2012(46):1251-1259.
[8]Pramanik.Effect of limited nickel availability on methane emission from EDTA treated soils:Coenzyme M an alternative biomarker for methanogens[J].Chemosphere,2013(90):873-876.
[9]McCartney C A,Bull I D,Yan T,et al.Assessment of archaeol as a molecular proxy for methane production in cattle[J].J.Dairy Sci.,2002,(96):1-7.
[10]Daisuke M K.Acceleration of cellulose degradation and shift of product via methanogenic co-culture of a cellulolytic bacterium with a hydrogenotrophic methanogen[J].Journal of Bioscience and Bioengineering,2012,4(114):435-439.
[11]Speece R E.Anacrobic Digestion of Biomass[M].USA:Else-vier Applied Science Pub,1987.
[12]Van den Berg L.Factors affecting rate of methane fer-mentation from acetic acid by enriched methanogenic cul-tures[J].Can Soc Microbiol,1976,22:1313-1319.
[13]张希衡.废水厌氧生物处理工程[C].北京:中国环境科学出版社,1996.
[14]Liu Y C,Laura L B,William B.Methanogens:a window into ancient sulfur metabolism[J].Trends in Microbiology May,2012,20(5):251-258.
[15]Richard D,Pancost Erin L,Mclymont B,et al.Archaeol as a methanogen biomarker in ombrotrophic bogs[J].Organic Geochemistry,2011(42):1279-1287.
[16]宫小燕,宋瑞平,李国学,等.不同温度下有机负荷对厌氧折流板反应器污泥颗粒化的影响[J].环境工程学报,2009,3(5):839-843.
[17]陆正禹,任立人.UASB处理链霉素废水颗粒污泥培养技术探索[J].中国沼气,1997,15(3):11.
[18]朱勇,张选军,张亚雷,等.溶解氧对厌氧颗粒污泥活性的影响[J].环境科学,2007,28(4):781-785.
[19]董春娟,吕炳南,陈志强.微氧条件下厌氧颗粒污泥和消化污泥特性研究[J].南京理工大学学报,2005,29(2):216-222.
[20]Maialen Barret,Nathalie Gagnon,Edward Topp,et al.Physico-chemical characteristics and methanogen communities in swine and dairy manure storage tanks:Spatio-temporal variations and impact on methanogenic Activity[J].Water Research,2013(47):737-746.
[21]马俊科,刘春,吴根,等.工业化UASB厌氧颗粒污泥产氢产乙酸菌群分析[J].浙江大学学报(工学版),2011,45(3):576-581.
[22]Zhang B,Chen Z,Qiu Z,et al.Dynamic and distribution of ammonia-oxidizing bacteria communities during sludge granulation in an anaerobicaerobic sequencing batch reactor[J].Water Research,2011(45):6207-6216.
[23]Talea V P,Makib J S,Struble C A,et al.Methanogen community structure-activity relationship and bioaugmentation of overloaded anaerobic digesters[J].Water Research,2011(45):5249-5256.
[24]Terryj W,Kusel E A.Isolation and characterization of methanogens from animal feces[J].System Appl.Microbiol,1986(8):234-238.
[25]施云芬,孙萌,张更宇.厌氧颗粒污泥研究进展[J].硅酸盐通报,2013,32(4):672-676.
[26]程晓波.厌氧颗粒污泥的性质及其在污水处理中的应用[J].中国市政工程,2010,2(145):43-46.
[27]李建政,刘枫,郭小宇,等.一株产氢产乙酸菌的生长条件及产乙酸特性[J].科技导报,2008,26(5):26-30.
[28]Aaron G,Jim M.Methane and methanogen community dynamics across a boreal peatland nutrient gradient[J].Soil Biology&Biochemistry,2012(8):96-105.
[29]Olga Y Ako,Kitamura Y,Intabon K.Steady state characteristics of acclimated hydrogenotrophic methanogens on inorganic substrate in continuous chemostat reactors[J].Bioresource Technology,2008(99):6305-6310.
[30]Jin W,Cheng Y F,Mao S Y.Isolation of natural cultures of anaerobic fungi and indigenously associated methanogens from herbivores and their bioconversion of lignocellulosic materials to methane[J].Bioresource Technology,2011(102):7925-7931.
[31]Zhang J,Dong H L,Liu D,et al.Microbial reduction of Fe(III)in illite-smectite minerals by methanogen Methanosarcina mazei[J].Chemical Geology,2012:35-44.
[32]Christopher A B,Georgia L,Wolfec M.Microbial diversity and dynamics during methane production from municipal solid waste[J].Waste Management,2013.
[33]Liu D,Wang H M,Dong H L.Mineral transformations associated with goethite reduction by Methanosarcina barkeri[J].Chemical Geology,2011(288):53-60.
[34]Liu D,Dong H L,Michael D,et al.Reduction of structural Fe(III)in nontronite by methanogen Methanosarcina barkeri[J].Geochimica et Cosmochimica Acta,2011(75):1057-1071.
[35]Deborah T,Silvia V,Eugenio L.Application of a real-time qPCR method to measure the methanogen concentration during anaerobic digestion as an indicator of biogas production capacity[J].Journal of Environmental Management,2012(111):173-177.
[36]Zhang J,Dong H L,Liu D,et al.Microbial reduction of Fe(III)in smectite minerals by thermophilic methanogen methanothermobacter thermautotrophicus[J].Geochimica et Cosmochimica Acta,2013(106):203-215.