菌生甲烷 的英文怎麼說
中文拼音 [jūnshēngjiǎwán]
菌生甲烷
英文
bacterial methane-
The metabolism and succession of microbial population took place ceaselessly during the fermentation and led to microbial polymorphism which mainly presented as anaerobe, methane bacteria, caproic acid bacteria, lactic acid bacteria, sulfate reducing bacteria, and nitrate reducing bacteria etc
其微生物種群的多態性主要表現為厭氧異氧菌、甲烷菌、己酸菌、乳酸菌、硫酸鹽還原菌、硝酸鹽還原菌等。resulted from the bacterial decay of cellulose in vegetable matter under water.
水下植物體中的纖維素經細菌作用也產生甲烷。The fungistasis of dichloromethane extracts 7 plants from were tested by growth rate method with the common fungi such as rhizoctonia solani, cladosporium ucumerinum, alternaria solani and fusarium oxysporium
摘要用生長速率法以辣椒絲核病菌、黃瓜黑星病菌、番茄早疫病菌和黃瓜枯萎病菌為供試菌種,對7種植物的12種二氯甲烷提取物進行了抑菌活性測定。Three kinds of microbe, i. e. methane - oxidizing bacteria, anaerobic cellulose - decomposing bacteria and sulfate - reducing bacteria, were selected for experimental study, so the disturbance of surface biochemical effect was effectively inhibited, thus causing the microbiological anomaly to be able to reflect objectively the deep - seated hydrocarbon micro - leakage, it is pointed out that the result of predicting subsurface hydrocarbon distribution by use of the microbiological anomalies is obvious
選擇三種微生物指標:甲烷氧化菌、厭氧纖維素分解菌和硫酸鹽還原菌進行試驗研究,有效地抑制了地表生物化學作用的干擾,使微生物異常能夠較客觀反映地下深部油氣微滲漏情況,微生物異常預測地下油氣的分佈,效果顯著。Based on these and other considerations, some scientists have proposed that methanogens living on geologically derived hydrogen might form the base of underground microbial ecosystems on mars and on jupiter ' s ice - covered moon, europa
基於前述及若干理由,有些科學家便提出,在火星以及被冰層覆蓋的木星衛星木衛二上,以地質活動所產生的氫氣為生的產甲烷菌,可能會形成地下細菌生態系的主體。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
介紹了瓦斯微生物治理技術的國內外研究現狀、甲烷氧化菌氧化甲烷的機理和影響因素,以及甲烷氧化菌的生態分佈。A similar haze layer on the ancient earth would have also cooled the climate, thus shifting the methanogen population back toward those slower - growing species that prefer cooler weather and thereby limiting further increases in methane production
類似的霾層同樣使古地球的氣候變冷,導致產甲烷菌的菌落演變回偏好較冷天氣而生長緩慢的菌種,因而進一步抑制甲烷產量的增加。Wind is produced by the fermentation of fibre and other undigested carbohydrates oligosaccharides by bacteria which break them down to gases, notably hydrogen, methand and carbon dioxide
脹氣是因為纖維發酵及其他未消化的碳水化合物低階多醣oligosaccharides ,因細菌分解纖維所產生,特別是氫甲烷二氧化碳。The archaea contain many organisms of extreme environments, such as hydrothermal vents, hot springs, saline sediments, volcanic craters and boiling muds. they include methane - generating organ - isms ( methanogens ), sulfate reducers, and extremophiles
古細菌包括許多生長在極端環境中的有機體,如高熱溫泉口,高鹽沉積地區,火山噴發處,沸騰的巖漿中等的生物有機體,還包括產甲烷菌等。< uk > resulted from the bacterial decay of cellulose in vegetable matter under water. < / uk >
< uk >水下植物體中的纖維素經細菌作用也產生甲烷。 < / uk >In this view, oxygen - detesting methanogens reigned supreme during the first two billion years of earth ' s history, and the greenhouse effect of the methane they produced had profound consequences for climate
據此推測,厭氧的產甲烷菌曾稱霸地球歷史的最初20億年,它們產生的甲烷所產生的溫室效應,對當時的氣候有舉足輕重的影響。Many of the methanogens and other anaerobic organisms that dominated the planet before the rise of oxygen would have either perished in this revolution or found themselves confined to increasingly restricted habitats
許多在氧氣濃度上升前主宰地球的產甲烷菌與其他厭氧生物,若非在此異變中滅絕,就是發現自己的生存空間已逐漸遭受壓縮。They also suggest that methanogens would have filled niches that oxygen producers and sulfate reducers now occupy, giving them a much more prominent biological and climatic role than they have in the modern world
他們同時指出,過去的產甲烷菌宛如目前的造氧生物與硫酸鹽還原生物一樣?有優勢,使它們當時在生物與氣候上的地位遠比現代重要。Siefert and others think that methane - producing microbes were some of the first microorganisms to evolve
謝菲特和其他學者認為,製造甲烷的細菌是最早演化出的微生物之一。A proliferation of these methane producers could have sustained a strong greenhouse effect
此類細菌會產生甲烷,它們的快速增殖或許能維持強力的溫室效應。分享友人