[1] Reysenbach A L,Shock E. Merging genomes with geochemistry in hydrothermal ecosystems [J]. Science,2002,296:1 077-1 082.
[2] Wang Chunsheng,Yang Junyi,Zhang Dongsheng,et al. A review on deep-sea hydrothermal vent communities [J]. Journal of Xiamen University(Nature Science),2006,45(2):141-147.[王春生,杨俊毅,张东声,等.深海热液生物群落研究综述[J].厦门大学学报:自然科学版,2006,45(2):141-147.]
[3] Jollivet D. Specific and genetic diversity at deep-sea hydrothermal vents: An overview [J]. Biodiversity and Conservation,1996,5:1 619-1 653.
[4] Boetius A. Lost city life [J].Science,2005,307:1 420-1 422.
[5] Tarasov V G,Gebruk A V,Mironov A N,et al. Deep-sea and shallow-water hydrothermal vent communities: Two different phenomena [J]. Chemical Geology,2005,224:5-39.
[6] Li Rihui,Hou Guiqing. Reserach advances in deep-sea hydrothermal vent communities [J]. Marine Geology and Quaternary Geology,1999,19(4):103-108.[李日辉,侯贵卿.深海热液喷口群落的研究进展[J].海洋地质与第四纪地质,1999,19(4):103-108.]
[7] Luther W G,Rozab F T,Rozan F T,et al. Chemical speciation drives hydrothermal vent ecology [J]. Nature,2001,410:813-816.
[8] Tunnlcllffe V,Fowler R C M. Influence of sea-floor spreading on the global hydrothermal vent fauna [J]. Nature,1996,379:531-533.
[9] Dover C L V,Humphris S E,Fornari D,et al. Biogeography and ecological setting of Indian Ocean hydrothermal vents [J]. Science,2001,294:818-823.
[10] Miroshnichenko M L. Thermophilic microbial communities of deep-sea hydrothermal vents [J]. Microbiology,2004,73(1):1-13.
[11] Xiao Tian,Chen Duo. Microbial processes at deep-sea hydrothermal vents [J]. Marine Sciences,1998,6:11-15.[肖天,陈騳.深海热液区的微生物作用[J].海洋科学,1998,6:11-15.]
[12] Miroshnichenko L M,Bonch-Osmolovskaya A E. Recent developments in the thermophilic microbiology of deep-sea hydrothermal vents [J]. Extremophiles,2006,10:85-96.
[13] Shan Liwei,Feng Guiying,Fan Sanhong. Progress in genome and methanogenesis of methanogens [J]. Journal of Microbiology,2003,23(6):42-46.[单丽伟,冯贵颖,范三红.产甲烷菌研究进展[J].微生物学杂志,2003,23(6):42-46.]
[14] Liu Zhiheng. Modern Microbiology [M]. Beijing: Science Press,2002:190.[刘志恒主编.现代微生物学[M].北京:科学出版社,2002:190.]
[15] Huang Jufang,Zeng Leping,Zhou Hongbo. Influence of microorganisms in deep-sea hydrothermal vents on the behavior of mineral elements [J]. Ecology and Environment,2006,15(1):175-178.[黄菊芳,曾乐平,周洪波.深海热液喷口微生物对矿物元素行为的影响[J].生态环境,2006,15(1):175-178.]
[16] Christopher E L. Bacterial Endosymbionts: Genome reduction in a hot spot [J]. Current Biology,2007,17(13): R508-R510.
[17] Satoshi N,Yoshihiro T,Shigeru S,et al. Deep-sea ventε-proteobacterial genomes provide insights into emergence of pathogens [J]. PNAS,2007,104(29):12 146-12 150.
[18] Huber J A,Mark Welch D B,Morrison H G,et al. Microbial population structures in the deep marine biosphere [J]. Science,2007,318:97-100.
[19] Prieur D. Microbiology of deep-sea hydrothermal vents [J]. Marine biotechnology,1997, 15:242-244.
[20] Jeanthon C. Molecular ecology of hydrothermal vent microbial communities [J]. Antonie van Leeuwenhoek,2000,77:117-133.
[21] Prieur D,Erauso G,Geslin C,et al. Genetic elements of thermococcales [J]. Biochemical Society Transactions,2004,32:184-187.
[22] Claire G,Marc Le R,Mélusine G,et al. Observation of virus-like particles in high temperature enrichment cultures from deep-sea hydrothermal vents [J]. Research in Microbiology,2003,154:303-307.
[23] Alice C O,Curtis A S. High abundances of viruses in a deep-sea hydrothermal vent system indicates viral mediated microbial mortality [J]. Deep-sea Research PartⅠ,2005,52:1 515-1 527.
[24] Fry I. Search for Life’s Beginnings [J]. Science,2006,312:1 140-1 141.
[25] Feng Jun,Li Jianghai,Niu Xianglong. Research advances in hydrothermal vent microbial communities and its significance for geology [J]. Advances in Earth Science,2005,20(7):732-739.[冯军,李江海,牛向龙.现代海底热液微生物群落及其地质意义[J].地球科学进展,2005,20(7):732-739.]
[26] Fu Wei,Zhou Yongzhang,Yang Zhijun,et al. Modern seafloor hydrothermal system and its scientific implications [J]. Advances in Earth Science,2005,20(1):81-88.[付伟,周永章,杨志军,等.现代海底热水活动的系统性研究及其科学意义[J].地球科学进展,2005,20(1):81-88.]
[27] Little T S C,Vrijenhoek C R. Are hydrothermal vent animals living fossils? [J]. Trends in Ecology and Evolution,2003,18(11):582-588.
[28] Suzuki Y,Inagaki F,Takai K,et al. Microbial diversity in inactive chimney structures from deep-sea hydrothermal systems [J]. Microbial Ecology,2004,47:186-196.
[29] Shen Guoying,Shi Bingzhang. Marine Ecology [M]. Beijing: Science Press,2002:353-356.[沈国英,施并章.海洋生态学[M].北京:科学出版社,2002:353-356.]
[30] Fisher R C,Girguis P A . Proteomic snapshot of life at a vent [J]. Science,2007,315:198-199.
[31] Markert S,Arndt C,Felbeck H,et al. Physiological proteomics of the uncultured endosymbiont of Riftia pachyptila [J]. Science,2007,315:247-250.
[32] Rau G. Hydrothermal vent clam and tube worm 13C/12C: Further evidence of nonphotosynthetic food sources [J]. Science,1981,213:338-340.
[33] Kashefi K,Lovley R D. Extending the upper temperature Limit for Life [J]. Science,2003, 301:934.
[34] Marteinsson V T,Birrien J L,Kristjansson J K,et al. First isolation of thermophilic aerobic non-Ssporulating heterotrophic bacteria from deep-sea hydrothermal vents [J]. FEMS Microbiology Ecology,1995,18:163-174.
[35] Chen Xiulan,Zhang Yuzhong,Gao Peiji. Progress in deep-sea microbiology [J]. Marine Sciences,2004,28(1):61-66.[陈秀兰,张玉忠,高培基.深海微生物研究进展[J].海洋科学,2004,28(1):61-66.]
[36] Lollar B S. Life’s chemical kitchen [J]. Science,2004,304:972-973.
[37] Liang Zhanbei,Shi Yi,Yue Jin. Progress in methanotrophs [J]. Chinese Journal of Ecology,2004,23(5):198-205.[梁战备,史奕,岳进.甲烷氧化菌研究进展[J].生态学杂志,2004,23(5):198-205.]
[38] Zhai Shikui,Li Huaiming,Yu Zenghui,et al. Advance in the investigation technology of modern seafloor hydrothermal activities [J]. Advances in Earth Science,2007,22(8):769-776.[翟世奎,李怀明,于增慧,等.现代海底热液活动调查研究技术进展[J].地球科学进展,2007,22(8):769-776.]
[39] Ou Mingong,Cui Xiaolong,Li Yiqing,et al. Application of metagenomics in uncultured microorganism study [J]. Journal of Microbiology,2007,27(2):88-91.[欧敏功,崔晓龙,李一青,等.宏基因组学在未培养微生物研究中的应用[J].微生物学杂志,2007,27(2):88-91.] |