生物再生生命保障系统内的植物相关微生物研究进展
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摘要
生物再生生命保障系统(bioregenerative life support system,BLSS)是建立月球/火星基地等长期载人航天任务的关键技术之一。植物单元在这一系统中发挥着重要的功能。植物微生物对封闭环境下植物的生长发育以及整个BLSS的稳定运行都有着至关重要的作用。本文详细介绍了生物再生生命保障系统内的植物相关的微生物研究进展,对于我国开展生物再生生命保障系统的研究具有参考价值。
To establish the Moon/Mars base,bioregenerative life support system( BLSS) is one of the key technologies that must be solved in these long-term manned space missions. In the BLSS system,plants play an essential role. Microorganisms associated with the plants are very important for the plant growth in a closed environment,even affect the stability of the whole BLSS. This paper introduced the research progress of the plant microbial ecology within the BLSS. The results may have reference value for BLSS research in our country.
To establish the Moon/Mars base,bioregenerative life support system( BLSS) is one of the key technologies that must be solved in these long-term manned space missions. In the BLSS system,plants play an essential role. Microorganisms associated with the plants are very important for the plant growth in a closed environment,even affect the stability of the whole BLSS. This paper introduced the research progress of the plant microbial ecology within the BLSS. The results may have reference value for BLSS research in our country.
引文
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[2]郭双生,武艳萍.空间植物栽培技术研究新进展[J].航天医学与医学工程,2016,29(4):301-306.Guo SS,Wu YP.Research progress in space plant growing technique[J].Space Medicine&Medical Engineering,2016,29(4):301-306.
[3]刘红,Gitelzon II,胡恩柱等.生物再生生命保障系统理论与技术[M].北京:科学出版社,2009.Liu H,Gitelzon II,Hu EZ,et al.Theory and Technology of Bioregenerative Life Support Systems[M].Beijing:Science Press,2009.
[4]於娟,付玉明.影响植物栽培的空间飞行因素[J].航天医学与医学工程,2015,28(1):67-73.Yu J,Fu YM.Factors influencing plant cultivation in space flight[J].Space Medicine&Medical Engineering,2015,28(1):67-73.
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[6]国辉,毛志泉,刘训理.植物与微生物互作的研究进展[J].中国农学通报,2011,27(9):28-33.Guo H,Mao ZQ,Liu XL.Research progress of interaction between plant and microorganism[J].Chinese Agricultural Sciene Bulletin,2011,27(9):28-33.
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[8]Mac Intyre OJ.Microbial dynamics and plant-microbe interactions in a hypobaric higher-plant chamber:implications for advanced life support in space[D].Guelph:The University of Guelph,2013.
[9]Tirranen LS.Microbiota of radish plants,cultivated in closed and open ecological systems[J].Acta Astronautica,2008,63(7-10):1055-1060.
[10]Tirranen LS,Gitelson II.The role of volatile metabolites in microbial communities of the LSS higher plant link[J].Advances in Space Research,2006,38(6):1227-1232.
[11]Tirranen LS.Formation of higher plant component microbial community in closed ecological system[J].Acta Astronautica,2001,49(1):47-52.
[12]Wheeler RM,Mackowiak CL,Stutte GW,et al.NASA's biomass production chamber:A testbed for bioregenerative life support studies[J].Advances in Space Research,1996,18(4-5):215-224
[13]Wheeler RM,Mackowiak CL,Stutte GW,et al.Crop productivities and radiation use efficiencies for bioregenerative life support[J].Advances in Space Research,2008,41(5):706-713.
[14]Strayer,RF.Microbiological characterization of the biomass production chamber during hydroponic growth of crops at the controlled ecological life support system(CELSS)breadboard facility[C].SAE Technical Paper,1991,911427.
[15]Strayer RF.Dynamics of microorganism populations in recirculating nutrient solutions[J].Advances in Space Research,1994,14(11):357-366.
[16]周志宏,刘志恒.受控生态生命保障系统中微生物研究的发展现状[J].航天医学与医学工程,1995,8(4):303-305.Zhou ZH,Liu ZH.Research progress of microorganisms in controlled ecological life support systems[J].Space Medicine&Medical Engineering,1995,8(4):303-305.
[17]Kang WL,He WT,Li LY,et al.Characteristics of the soil-like substrates produced with a novel technique combining aerobic fermentation and earthworm treatment[J].Advances in Space Research,2012,50(11):1495-1500.
[18]He WT,Liu H,Xing YD,et al.Comparison of three soil-like substrate production techniques for a bioregenerative life support system[J].Advances in Space Research,2010,46(9):1156-1161.
[19]Qin YC,Fu YM,Dong C,et al.Shifts of microbial communities of wheat(Triticum aestivum,L.)cultivation in a closed artificial ecosystem[J].Applied Microbiology&Biotechnology,2016,100(9):1-11.
[20]Garland JL.The structure and function of microbial communities in hydroponic systems[J].Advances in Space Research,1994,14(11):383-386.
[21]Somova LA,Pechurkin NS.Management and control of microbial populations’development in LSS of missions of different durations[J].Advances in Space Research,2005,35(9):621-1625.
[22]Nelson B.The role of plant pathology in development of controlled environment life support systems[J].Plant Disease,1987,71(7):580-584.
[23]Roberts MS,Garland JL,Mills,AL.Microbial astronauts:Assembling microbial communities for advanced life support systems[J].Microbial Ecology,2004,47(2):137-149.
[24]Matos A,Kerkhof L,Garland JL.Effects of microbial community diversity on the survival of Pseudomonas aeruginosa in the wheat rhizosphere[J].Microbial Ecology,2005,49(2):257-264.
[25]Fu YM,Vorobieva SV,Khizhnyak SV,et al.Karaulnaya-2 cave as a source of cold-adapted strains for plants protection in the bioregenerative life support systems[C].Proceedings of Scientific Problems in Modern Agriculture,2011,Krasnoyarsk,Russia.
[26]Khizhnyak S,Nesterenko E,Fu Y,et al.Karst caves as a source of microorganisms for biological control of plant pathogens in bioregenerative life support systems[C].39th COS-PAR Scientific Assembly,2012.
[2]郭双生,武艳萍.空间植物栽培技术研究新进展[J].航天医学与医学工程,2016,29(4):301-306.Guo SS,Wu YP.Research progress in space plant growing technique[J].Space Medicine&Medical Engineering,2016,29(4):301-306.
[3]刘红,Gitelzon II,胡恩柱等.生物再生生命保障系统理论与技术[M].北京:科学出版社,2009.Liu H,Gitelzon II,Hu EZ,et al.Theory and Technology of Bioregenerative Life Support Systems[M].Beijing:Science Press,2009.
[4]於娟,付玉明.影响植物栽培的空间飞行因素[J].航天医学与医学工程,2015,28(1):67-73.Yu J,Fu YM.Factors influencing plant cultivation in space flight[J].Space Medicine&Medical Engineering,2015,28(1):67-73.
[5]Wheeler RM.Plants for human life support in space:From Myers to Mars[J].Gravitational and Space Biology,2010,23:25-35.
[6]国辉,毛志泉,刘训理.植物与微生物互作的研究进展[J].中国农学通报,2011,27(9):28-33.Guo H,Mao ZQ,Liu XL.Research progress of interaction between plant and microorganism[J].Chinese Agricultural Sciene Bulletin,2011,27(9):28-33.
[7]Gitelson II,Lisovsky GM,Mac Elroy RD.Man made closed ecological systems[M].London-New York:CRC Press,Taylor&Francis,2003.
[8]Mac Intyre OJ.Microbial dynamics and plant-microbe interactions in a hypobaric higher-plant chamber:implications for advanced life support in space[D].Guelph:The University of Guelph,2013.
[9]Tirranen LS.Microbiota of radish plants,cultivated in closed and open ecological systems[J].Acta Astronautica,2008,63(7-10):1055-1060.
[10]Tirranen LS,Gitelson II.The role of volatile metabolites in microbial communities of the LSS higher plant link[J].Advances in Space Research,2006,38(6):1227-1232.
[11]Tirranen LS.Formation of higher plant component microbial community in closed ecological system[J].Acta Astronautica,2001,49(1):47-52.
[12]Wheeler RM,Mackowiak CL,Stutte GW,et al.NASA's biomass production chamber:A testbed for bioregenerative life support studies[J].Advances in Space Research,1996,18(4-5):215-224
[13]Wheeler RM,Mackowiak CL,Stutte GW,et al.Crop productivities and radiation use efficiencies for bioregenerative life support[J].Advances in Space Research,2008,41(5):706-713.
[14]Strayer,RF.Microbiological characterization of the biomass production chamber during hydroponic growth of crops at the controlled ecological life support system(CELSS)breadboard facility[C].SAE Technical Paper,1991,911427.
[15]Strayer RF.Dynamics of microorganism populations in recirculating nutrient solutions[J].Advances in Space Research,1994,14(11):357-366.
[16]周志宏,刘志恒.受控生态生命保障系统中微生物研究的发展现状[J].航天医学与医学工程,1995,8(4):303-305.Zhou ZH,Liu ZH.Research progress of microorganisms in controlled ecological life support systems[J].Space Medicine&Medical Engineering,1995,8(4):303-305.
[17]Kang WL,He WT,Li LY,et al.Characteristics of the soil-like substrates produced with a novel technique combining aerobic fermentation and earthworm treatment[J].Advances in Space Research,2012,50(11):1495-1500.
[18]He WT,Liu H,Xing YD,et al.Comparison of three soil-like substrate production techniques for a bioregenerative life support system[J].Advances in Space Research,2010,46(9):1156-1161.
[19]Qin YC,Fu YM,Dong C,et al.Shifts of microbial communities of wheat(Triticum aestivum,L.)cultivation in a closed artificial ecosystem[J].Applied Microbiology&Biotechnology,2016,100(9):1-11.
[20]Garland JL.The structure and function of microbial communities in hydroponic systems[J].Advances in Space Research,1994,14(11):383-386.
[21]Somova LA,Pechurkin NS.Management and control of microbial populations’development in LSS of missions of different durations[J].Advances in Space Research,2005,35(9):621-1625.
[22]Nelson B.The role of plant pathology in development of controlled environment life support systems[J].Plant Disease,1987,71(7):580-584.
[23]Roberts MS,Garland JL,Mills,AL.Microbial astronauts:Assembling microbial communities for advanced life support systems[J].Microbial Ecology,2004,47(2):137-149.
[24]Matos A,Kerkhof L,Garland JL.Effects of microbial community diversity on the survival of Pseudomonas aeruginosa in the wheat rhizosphere[J].Microbial Ecology,2005,49(2):257-264.
[25]Fu YM,Vorobieva SV,Khizhnyak SV,et al.Karaulnaya-2 cave as a source of cold-adapted strains for plants protection in the bioregenerative life support systems[C].Proceedings of Scientific Problems in Modern Agriculture,2011,Krasnoyarsk,Russia.
[26]Khizhnyak S,Nesterenko E,Fu Y,et al.Karst caves as a source of microorganisms for biological control of plant pathogens in bioregenerative life support systems[C].39th COS-PAR Scientific Assembly,2012.