古细菌
塔玛丘塔
生物地球化学循环
产甲烷
广域古菌界
环境化学
硫循环
碳循环
极端微生物
微生物代谢
地球微生物学
环境科学
甲烷厌氧氧化
甲烷
硫黄
化学
细菌
微生物生态学
生物
生态学
微生物
生态系统
环境生物技术
遗传学
有机化学
作者
Pierre Offre,Anja Spang,Christa Schleper
标识
DOI:10.1146/annurev-micro-092412-155614
摘要
Archaea constitute a considerable fraction of the microbial biomass on Earth. Like Bacteria they have evolved a variety of energy metabolisms using organic and/or inorganic electron donors and acceptors, and many of them are able to fix carbon from inorganic sources. Archaea thus play crucial roles in the Earth's global geochemical cycles and influence greenhouse gas emissions. Methanogenesis and anaerobic methane oxidation are important steps in the carbon cycle; both are performed exclusively by anaerobic archaea. Oxidation of ammonia to nitrite is performed by Thaumarchaeota. They represent the only archaeal group that resides in large numbers in the global aerobic terrestrial and marine environments on Earth. Sulfur-dependent archaea are confined mostly to hot environments, but metal leaching by acidophiles and reduction of sulfate by anaerobic, nonthermophilic methane oxidizers have a potential impact on the environment. The metabolisms of a large number of archaea, in particular those dominating the subsurface, remain to be explored.
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