1) methane oxidizing archaea
甲烷氧化古细菌
2) methanotrophic bacteria
甲烷氧化细菌
1.
Methanotrophic bacterial cells were adsorbed on inorganic supports (activated carbon, alumina, zeolite etc.
研究了利用无机载体(活性炭、氧化铝、分子筛等)吸附法和天然藻胶(海藻酸钙等)包埋法制备的固定化甲烷氧化细菌的催化性能及其在生物反应器中的反应。
3) methanotroph
甲烷氧化细菌
1.
When a suspension of methanotrophic bacteria of Methylosinus trichosporium IMV 3011 was incubated at 32 ℃ with methane and oxygen, there was an extracellular accumulation of methanol from methane oxidation in response to the carbon dioxide addition.
在甲烷单加氧酶和脱氢酶系的作用下 ,甲烷氧化细菌MethylosinustrichosporiumIMV 30 11可以把甲烷氧化成二氧化碳 。
2.
Using a fluidized bed as immobilization system,mixed culture methanotrophic attached-films were developed on diatomite particles.
以流化床作为固定化体系 ,在硅藻土颗粒表面构建了混合培养的甲烷氧化细菌的吸附膜。
4) methanotroph
甲烷氧化菌
1.
The related current research status is introduced and a preliminary conclusion was drawn on the mechanism of methane oxidation by methanotroph,its physiolony and distribution in ecosystems,as well as potential use of methanotroph in biodegradation of gas.
甲烷氧化菌以甲烷为其唯一碳源和能源,在瓦斯治理方面具有潜在应用价值。
2.
Based on the test of adding microorganism into coal sample desorbing gas which result in coal gas degradation,regularity of coal gas degradation by microorganism and methanotroph growth in coal sample were studied.
通过对在含吸附瓦斯煤样中加入微生物降解瓦斯的试验,研究了微生物降解煤矿瓦斯的降解规律和甲烷氧化菌在煤样中的生长规律,在煤样中加入甲烷氧化菌M3011,GYJ3的混合菌种后,对CH4和CO2浓度变化进行监测。
5) Methane oxidizing bacteria
甲烷氧化菌
1.
Objective To isolate methane oxidizing bacteria from earth to study their characteristics.
目的 用好氧性培养基和 Hungte压氧操作技术相结合的方法从水稻田土壤中分离三个甲烷氧化菌分离物 ,分别命名为 MOB0 0 4、MOB0 0 7、MOB0 0 9。
2.
It has a sinifeicant importance in predicting non-standard oil-gas reservoir by using Methane oxidizing bacteria;defining the geological structure type of reservoir shows and oil-gas distribution,spotting the leak of oil-gas of reservoir s position has a significance meaning.
油气微生物勘探(M POG)技术作为一种新的地表油气勘探方法,以其直接、有效、多解性小且经济等优势日益受到全球油气勘探界的重视,尤其是利用甲烷氧化菌和丁烷氧化菌对非常规油气藏的预测和确定地址构造的含油级别和油气分布,指明油气藏泄油位置均有重要意义。
6) methanotrophs
甲烷氧化菌
1.
Type Ⅱ methanotrophs community structure in the cover soils of landfill;
垃圾填埋场覆土层Ⅱ型甲烷氧化菌的群落结构
2.
Effect of long-term different fertilization on methane oxidation potential and diversity of methanotrophs of paddy soil;
长期不同施肥下水稻土甲烷氧化能力及甲烷氧化菌多样性的变化
3.
Methane is used as its only carbon source and energy by methanotrophs,therefore,it plays an important role in balancing atmospheric methane in the whole world.
甲烷氧化菌以甲烷为其惟一的碳源和能源,在全球大气甲烷平衡中起着重要的作用。
补充资料:古细菌
古细菌 archaeobacteria 原核生物中的一类。古细菌一词是美国人C.R.沃斯于1977年首先提出的。包括3类不同的细菌:产甲烷细菌、极端嗜盐细菌和嗜酸热细菌。它们生存在极端特殊的生态环境中,具有独特的16S核糖体RNA寡核苷酸谱。 |
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