不同煤阶生物成因煤层气微生物群落的功能及多样性研究进展
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摘要
生物成因煤层气是煤层气形成的主要途径之一,在各种煤阶的煤层气田中均发现有生物成因煤层气。高通量测序技术、宏基因组学等高新技术的应用逐步揭示了生物成因煤层气微生物群落的组成及多样性,为揭示煤层气资源的微生物生成机理提供了理论依据。本文综述了近年来国内外针对不同煤阶条件下微生物群落结构及多样性方面的研究进展,总结了煤层气生物成因过程中主要微生物的功能及产气途径,并探讨了生物成因煤层气领域的研究前景。
Biogenic coal-bed methane(CBM), a kind of unconventional gas resources, has been observed in different coal-rank basins. The composition and the diversity of microbial community involved in biogenic CBM have been investigated by metagenomics and high-throughput sequencing. It is fundamental for unravelling the mechanism of biogenic CBM. This review focuses on recent advances in microbial diversity, metabolic pathway, and the function of microbial community in biogenic CBM production. The associations between coal ranks and microbial diversity are further discussed and analyzed.
Biogenic coal-bed methane(CBM), a kind of unconventional gas resources, has been observed in different coal-rank basins. The composition and the diversity of microbial community involved in biogenic CBM have been investigated by metagenomics and high-throughput sequencing. It is fundamental for unravelling the mechanism of biogenic CBM. This review focuses on recent advances in microbial diversity, metabolic pathway, and the function of microbial community in biogenic CBM production. The associations between coal ranks and microbial diversity are further discussed and analyzed.
引文
[1]Ge JL,Xu HY,Zhang LL.Research status quo of biogenic coal-bed methane[J].Journal of Microbiology,2016,36(4):90-95(in Chinese)葛晶丽,徐宏英,张灵利.生物成因煤层气的研究现状[J].微生物学杂志,2016,36(4):90-95
[2]Guo HG,Yu ZS,Wei M,et al.Research progress on molecular microbial ecology associated with the formation of biogenic coal bed methane[J].Journal of University of Chinese Academy of Sciences,2015,32(1):1-8(in Chinese)郭红光,余志晟,魏敏,等.生物成因煤层气形成的微生物分子生态学研究进展[J].中国科学院大学学报,2015,32(1):1-8
[3]Yuan WF,Cheng C,Zhao FH,et al.Progresses in research on Chinese CBM accumulation mechanism[J].Coal Geology of China,2013,25(6):24-29(in Chinese)袁文峰,程晨,赵峰华,等.中国煤层气成藏机理研究进展[J].中国煤炭地质,2013,25(6):24-29
[4]Wang AK,Qin Y.Research status and progress of experimental study on biogenic coalbed methane[J].Coal Geology&Exploration,2010,38(5):23-27(in Chinese)王爱宽,秦勇.生物成因煤层气实验研究现状与进展[J].煤田地质与勘探,2010,38(5):23-27
[5]Xu ZJ,Liu QF,Zheng QM,et al.Origins and carbon isotopic composition of coalbed methane and carbon dioxide from Taiyuan formation,Northern Qinshui basin,China[J].Journal of China Coal Society,2016,41(6):1467-1475(in Chinese)徐占杰,刘钦甫,郑启明,等.沁水盆地北部太原组煤层气碳同位素特征及成因探讨[J].煤炭学报,2016,41(6):1467-1475
[6]Ju YW,Li QG,Yan ZF,et al.Origin types of CBM and their geochemical research progress[J].Journal of China Coal Society,2014,39(5):806-815(in Chinese)琚宜文,李清光,颜志丰,等.煤层气成因类型及其地球化学研究进展[J].煤炭学报,2014,39(5):806-815
[7]Colosimo F,Thomas R,Lloyd JR,et al.Biogenic methane in shale gas and coal bed methane:A review of current knowledge and gaps[J].International Journal of Coal Geology,2016,165:106-120
[8]Guo HG,Wang F,Li ZG.Research progress of microbially enhanced coalbed methane[J].Microbiology China,2015,42(3):584-590(in Chinese)郭红光,王飞,李治刚.微生物增产煤层气技术研究进展[J].微生物学通报,2015,42(3):584-590
[9]Wawrik B,Mendivelso M,Parisi VA,et al.Field and laboratory studies on the bioconversion of coal to methane in the San Juan Basin[J].FEMS Microbiology Ecology,2012,81(1):26-42
[10]Green MS,Flanegan KC,Gilcrease PC.Characterization of a methanogenic consortium enriched from a coalbed methane well in the Powder River Basin,U.S.A.[J].International Journal of Coal Geology,2008,76(1/2):34-45
[11]Kirk MF,Wilson BH,Marquart KA,et al.Solute concentrations influence microbial methanogenesis in coal-bearing strata of the Cherokee Basin,USA[J].Frontiers in Microbiology,2015,6:1287
[12]Yang XQ,Wu RW,Han ZY,et al.Analysis of methanogenic community and pathway of coalbed methane fields in the Qinshui basin based on mcr A gene[J].Microbiology China,2017,44(4):795-806(in Chinese)杨秀清,吴瑞薇,韩作颖,等.基于mcr A基因的沁水盆地煤层气田产甲烷菌群与途径分析[J].微生物学通报,2017,44(4):795-806
[13]Küsel K,Dorsch T,Acker G,et al.Clostridium scatologenes strain SL1 isolated as an acetogenic bacterium from acidic sediments[J].International Journal of Systematic&Evolutionary Microbiology,2000,50(2):537-546
[14]Barnhart EP,Weeks EP,Jones EJP,et al.Hydrogeochemistry and coal-associated bacterial populations from a methanogenic coal bed[J].International Journal of Coal Geology,2016,162:14-26
[15]Robbins SJ,Evans PN,Esterle JS,et al.The effect of coal rank on biogenic methane potential and microbial composition[J].International Journal of Coal Geology,2016,154-155:205-212
[16]Guo HG,Liu RY,Yu ZS,et al.Pyrosequencing reveals the dominance of methylotrophic methanogenesis in a coal bed methane reservoir associated with Eastern Ordos Basin in China[J].International Journal of Coal Geology,2012,93:56-61
[17]Shao P,Wang AK,Wang WF.Biogas formation features of low and medium rank coal[J].Coal Science and Technology,2016,44(10):65-69(in Chinese)邵培,王爱宽,王文峰.中低煤阶煤的生物气生成特征[J].煤炭科学技术,2016,44(10):65-69
[18]Bao Y,Huang HP,He DS,et al.Microbial enhancing coal-bed methane generation potential,constraints and mechanism-a mini-review[J].Journal of Natural Gas Science&Engineering,2016,35:68-78
[19]Wang AK,Qin Y,Shao P.Effect characteristics of coal particle size on lignite biogas generation[J].China Coalbed Methane,2015,12(3):3-6(in Chinese)王爱宽,秦勇,邵培.煤粒度对褐煤生物气生成的影响特征[J].中国煤层气,2015,12(3):3-6
[20]Song JX,Guo HY,Chen SL,et al.Control effects of coal maceral composition on the metabolism of biogenic methane[J].Natural Gas Industry,2016,36(5):25-30(in Chinese)宋金星,郭红玉,陈山来,等.煤中显微组分对生物甲烷代谢的控制效应[J].天然气工业,2016,36(5):25-30
[21]Guo HG,Zhang JL,Han Q,et al.Important role of fungi in the production of secondary biogenic coalbed methane in China’s Southern Qinshui Basin[J].Energy&Fuels,2017,31(7):7197-7207
[22]Bi ZT,Zhang J,Park S,et al.A formation water-based nutrient recipe for potentially increasing methane release from coal in situ[J].Fuel,2017,209:498-508
[23]Zhang J,Liang YN,Pandey R,et al.Characterizing microbial communities dedicated for conversion of coal to methane in situ and ex situ[J].International Journal of Coal Geology,2015,146:145-154
[24]Zhang J,Liang YN.Evaluating approaches for sustaining methane production from coal through biogasification[J].Fuel,2017,202:233-240
[25]Wei M,Yu ZS,Jiang Z,et al.Microbial diversity and biogenic methane potential of a thermogenic-gas coal mine[J].International Journal of Coal Geology,2014,134-135:96-107
[26]Iverach CP,Beckmann S,Cendón DI,et al.Biogeochemical constraints on the origin of methane in an alluvial aquifer:evidence for the upward migration of methane from underlying coal measures[J].Biogeosciences,2017,14:215-228
[27]Yang XQ,Chen YM,Wu RW,et al.Potential of biogenic methane for pilot-scale fermentation ex situ with lump anthracite and the changes of methanogenic consortia[J].Journal of Industrial Microbiology&Biotechnology,2018,45(4):229-237
[28]Davis KJ,Lu SP,Barnhart EP,et al.Type and amount of organic amendments affect enhanced biogenic methane production from coal and microbial community structure[J].Fuel,2018,211:600-608
[29]Huang ZX,Sednek C,Urynowicz MA,et al.Low carbon renewable natural gas production from coalbeds and implications for carbon capture and storage[J].Nature Communications,2017,8(1):568
[30]Gallagher LK,Glossner AW,Landkamer LL,et al.The effect of coal oxidation on methane production and microbial community structure in Powder River Basin coal[J].International Journal of Coal Geology,2013,115:71-78
[31]Wang BY,Tai C,Wu L,et al.Methane production from lignite through the combined effects of exogenous aerobic and anaerobic microflora[J].International Journal of Coal Geology,2017,173:84-93
[32]Raudsepp MJ,Gagen EJ,Golding SD,et al.The effect of bituminous coal on methanogenic mixed cultures and pure cultures of Methanococcus and Methanosarcina[J].Fuel,2017,205:60-70
[33]Rathi R,Priya A,Vohra M,et al.Development of a microbial process for methane generation from bituminous coal at thermophilic conditions[J].International Journal of Coal Geology,2015,147-148:25-34
[34]Guo HG,Yu ZS,Zhang HX.Phylogenetic diversity of microbial communities associated with coalbed methane gas from Eastern Ordos Basin,China[J].International Journal of Coal Geology,2015,150-151:120-126
[2]Guo HG,Yu ZS,Wei M,et al.Research progress on molecular microbial ecology associated with the formation of biogenic coal bed methane[J].Journal of University of Chinese Academy of Sciences,2015,32(1):1-8(in Chinese)郭红光,余志晟,魏敏,等.生物成因煤层气形成的微生物分子生态学研究进展[J].中国科学院大学学报,2015,32(1):1-8
[3]Yuan WF,Cheng C,Zhao FH,et al.Progresses in research on Chinese CBM accumulation mechanism[J].Coal Geology of China,2013,25(6):24-29(in Chinese)袁文峰,程晨,赵峰华,等.中国煤层气成藏机理研究进展[J].中国煤炭地质,2013,25(6):24-29
[4]Wang AK,Qin Y.Research status and progress of experimental study on biogenic coalbed methane[J].Coal Geology&Exploration,2010,38(5):23-27(in Chinese)王爱宽,秦勇.生物成因煤层气实验研究现状与进展[J].煤田地质与勘探,2010,38(5):23-27
[5]Xu ZJ,Liu QF,Zheng QM,et al.Origins and carbon isotopic composition of coalbed methane and carbon dioxide from Taiyuan formation,Northern Qinshui basin,China[J].Journal of China Coal Society,2016,41(6):1467-1475(in Chinese)徐占杰,刘钦甫,郑启明,等.沁水盆地北部太原组煤层气碳同位素特征及成因探讨[J].煤炭学报,2016,41(6):1467-1475
[6]Ju YW,Li QG,Yan ZF,et al.Origin types of CBM and their geochemical research progress[J].Journal of China Coal Society,2014,39(5):806-815(in Chinese)琚宜文,李清光,颜志丰,等.煤层气成因类型及其地球化学研究进展[J].煤炭学报,2014,39(5):806-815
[7]Colosimo F,Thomas R,Lloyd JR,et al.Biogenic methane in shale gas and coal bed methane:A review of current knowledge and gaps[J].International Journal of Coal Geology,2016,165:106-120
[8]Guo HG,Wang F,Li ZG.Research progress of microbially enhanced coalbed methane[J].Microbiology China,2015,42(3):584-590(in Chinese)郭红光,王飞,李治刚.微生物增产煤层气技术研究进展[J].微生物学通报,2015,42(3):584-590
[9]Wawrik B,Mendivelso M,Parisi VA,et al.Field and laboratory studies on the bioconversion of coal to methane in the San Juan Basin[J].FEMS Microbiology Ecology,2012,81(1):26-42
[10]Green MS,Flanegan KC,Gilcrease PC.Characterization of a methanogenic consortium enriched from a coalbed methane well in the Powder River Basin,U.S.A.[J].International Journal of Coal Geology,2008,76(1/2):34-45
[11]Kirk MF,Wilson BH,Marquart KA,et al.Solute concentrations influence microbial methanogenesis in coal-bearing strata of the Cherokee Basin,USA[J].Frontiers in Microbiology,2015,6:1287
[12]Yang XQ,Wu RW,Han ZY,et al.Analysis of methanogenic community and pathway of coalbed methane fields in the Qinshui basin based on mcr A gene[J].Microbiology China,2017,44(4):795-806(in Chinese)杨秀清,吴瑞薇,韩作颖,等.基于mcr A基因的沁水盆地煤层气田产甲烷菌群与途径分析[J].微生物学通报,2017,44(4):795-806
[13]Küsel K,Dorsch T,Acker G,et al.Clostridium scatologenes strain SL1 isolated as an acetogenic bacterium from acidic sediments[J].International Journal of Systematic&Evolutionary Microbiology,2000,50(2):537-546
[14]Barnhart EP,Weeks EP,Jones EJP,et al.Hydrogeochemistry and coal-associated bacterial populations from a methanogenic coal bed[J].International Journal of Coal Geology,2016,162:14-26
[15]Robbins SJ,Evans PN,Esterle JS,et al.The effect of coal rank on biogenic methane potential and microbial composition[J].International Journal of Coal Geology,2016,154-155:205-212
[16]Guo HG,Liu RY,Yu ZS,et al.Pyrosequencing reveals the dominance of methylotrophic methanogenesis in a coal bed methane reservoir associated with Eastern Ordos Basin in China[J].International Journal of Coal Geology,2012,93:56-61
[17]Shao P,Wang AK,Wang WF.Biogas formation features of low and medium rank coal[J].Coal Science and Technology,2016,44(10):65-69(in Chinese)邵培,王爱宽,王文峰.中低煤阶煤的生物气生成特征[J].煤炭科学技术,2016,44(10):65-69
[18]Bao Y,Huang HP,He DS,et al.Microbial enhancing coal-bed methane generation potential,constraints and mechanism-a mini-review[J].Journal of Natural Gas Science&Engineering,2016,35:68-78
[19]Wang AK,Qin Y,Shao P.Effect characteristics of coal particle size on lignite biogas generation[J].China Coalbed Methane,2015,12(3):3-6(in Chinese)王爱宽,秦勇,邵培.煤粒度对褐煤生物气生成的影响特征[J].中国煤层气,2015,12(3):3-6
[20]Song JX,Guo HY,Chen SL,et al.Control effects of coal maceral composition on the metabolism of biogenic methane[J].Natural Gas Industry,2016,36(5):25-30(in Chinese)宋金星,郭红玉,陈山来,等.煤中显微组分对生物甲烷代谢的控制效应[J].天然气工业,2016,36(5):25-30
[21]Guo HG,Zhang JL,Han Q,et al.Important role of fungi in the production of secondary biogenic coalbed methane in China’s Southern Qinshui Basin[J].Energy&Fuels,2017,31(7):7197-7207
[22]Bi ZT,Zhang J,Park S,et al.A formation water-based nutrient recipe for potentially increasing methane release from coal in situ[J].Fuel,2017,209:498-508
[23]Zhang J,Liang YN,Pandey R,et al.Characterizing microbial communities dedicated for conversion of coal to methane in situ and ex situ[J].International Journal of Coal Geology,2015,146:145-154
[24]Zhang J,Liang YN.Evaluating approaches for sustaining methane production from coal through biogasification[J].Fuel,2017,202:233-240
[25]Wei M,Yu ZS,Jiang Z,et al.Microbial diversity and biogenic methane potential of a thermogenic-gas coal mine[J].International Journal of Coal Geology,2014,134-135:96-107
[26]Iverach CP,Beckmann S,Cendón DI,et al.Biogeochemical constraints on the origin of methane in an alluvial aquifer:evidence for the upward migration of methane from underlying coal measures[J].Biogeosciences,2017,14:215-228
[27]Yang XQ,Chen YM,Wu RW,et al.Potential of biogenic methane for pilot-scale fermentation ex situ with lump anthracite and the changes of methanogenic consortia[J].Journal of Industrial Microbiology&Biotechnology,2018,45(4):229-237
[28]Davis KJ,Lu SP,Barnhart EP,et al.Type and amount of organic amendments affect enhanced biogenic methane production from coal and microbial community structure[J].Fuel,2018,211:600-608
[29]Huang ZX,Sednek C,Urynowicz MA,et al.Low carbon renewable natural gas production from coalbeds and implications for carbon capture and storage[J].Nature Communications,2017,8(1):568
[30]Gallagher LK,Glossner AW,Landkamer LL,et al.The effect of coal oxidation on methane production and microbial community structure in Powder River Basin coal[J].International Journal of Coal Geology,2013,115:71-78
[31]Wang BY,Tai C,Wu L,et al.Methane production from lignite through the combined effects of exogenous aerobic and anaerobic microflora[J].International Journal of Coal Geology,2017,173:84-93
[32]Raudsepp MJ,Gagen EJ,Golding SD,et al.The effect of bituminous coal on methanogenic mixed cultures and pure cultures of Methanococcus and Methanosarcina[J].Fuel,2017,205:60-70
[33]Rathi R,Priya A,Vohra M,et al.Development of a microbial process for methane generation from bituminous coal at thermophilic conditions[J].International Journal of Coal Geology,2015,147-148:25-34
[34]Guo HG,Yu ZS,Zhang HX.Phylogenetic diversity of microbial communities associated with coalbed methane gas from Eastern Ordos Basin,China[J].International Journal of Coal Geology,2015,150-151:120-126
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