1) hydrogenotrophic methanogenesis
氢营养型甲烷化
1.
The studies found that accumulated acids were degraded mainly by Methanosarcina firstly with acetoclastic pathway and then with hydrogenotrophic pathway under mesophilic condition,whereas acids were mainly degraded to methane by the tandem reactions of syntrophic acetate oxidation and hydrogenotrophic methanogenesis under thermophilic condition.
联合应用稳定同位素表征技术和微生态原位表征方法,对高浓度有机酸胁迫条件下的生物质类有机物厌氧发酵甲烷化途径的研究结果表明,面临高浓度有机酸迅速累积的环境,中温发酵条件下,优势菌种为甲烷八叠球菌,依时间次序,通过乙酸发酵和氢营养型途径利用累积的有机酸产生甲烷;而在高温条件下,有机酸则通过乙酸氧化和氢营养型甲烷化途径的串联反应被降解。
2) Methanotroph
甲烷营养菌
1.
Soil CH_4 Oxidation and Soil Methanotrophs and its Main Researching Techniques
土壤CH_4氧化与土壤甲烷营养菌及主要研究方法
3) facultative methanotrophs
兼性营养甲烷氧化菌
4) Carboxydotrophic hydrogenogenic bacterium
一氧化碳营养型产氢菌
5) methanotroph
甲烷营养细菌
1.
Advances in thermoacidophilic methanotrophs from extreme environments
极端环境下嗜热酸甲烷营养细菌研究进展
6) carburetted hydrogen
碳化氢, 甲烷
补充资料:兼性厌氧菌
兼性厌氧菌
facultative anaerobe
无芽胞厌氧菌根据其对氧的耐受性,可分为兼性和专性厌氧菌两大类。兼性厌氧菌是指那些既能在厌氧的条件下生长,也能在有氧的条件下生长的无芽胞厌氧菌。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条