化能自养

Calvin循环是化能自养细菌同化CO2的主要途径.该循环大多数酶由cbb基因编码。

CO_ 2 fixation in the chemoautotrophic bacteria occurs via the Calvin-Benson-Bassham cycle , and most of the enzymes of the cycle are encoded by cbb genes .

通过分离鉴定或悬浮、附着生长培养等手段，发现能降解气相硫化物的主要是化能自养型和甲基营养型的微生物，它们能将硫化物定量地氧化为SO4~（2-）和CO2。

On the bases of isolation and identification and with the help of batch or continuous suspended-growth and attach-growth culture , the microorganisms being able to degrade gaseous sulfide are mainly methylotrophy and chemoautotrophy which can oxidize sulfide to sulfate and carbon dioxide quantitatively .

原水中氨氮和亚硝氮的去除由化能自养的氨氧化细菌（AOB）和亚硝酸盐氧化细菌相继完成，其中由AOB完成的将氨转化为亚硝酸盐的过程是硝化反应的限速步骤。

Nitrification is the process of converting ammonia to nitrate via nitrite and is catalyzed by aerobic chemoautotrophic ammonia-oxidizing bacteria ( AOB ) and nitrite-oxidizing bacteria .

利用严格无机化能自养型嗜热嗜酸菌（KY-2菌株）对低品位原生硫化铜矿进行柱浸试验研究。

The column leaching experiments of the primary ore of copper sulfide with thermoacidophile , KY-2 strain , are conducted .

化能自养型微生物利用太阳能途径的实验研究

Experimental researches on the pathway of the chemoautotroph microbes utilizing solar energy

培养基营养成分对蛹虫草生长的影响兼[专]性化能自养生物

Effects of Nutrient Ingredient in Culture Medium on the Growth of Cordyceps militaris

细菌浸铀中的化能自养菌种类及活性研究

The Species and Activity Research of Chemotroph Bacteria Using in Uranium Leaching by Bacteria

针对自然界中天然半导体矿物和化能自养微生物之间的能量交换途径进行了详细的实验研究。

The energy exchange between natural semiconductor minerals and chemoautotroph microbes was investigated in details in this paper .

是通过将硫化物氧化为单体硫获得能量，可将二氧化碳固定为碳水化合物的丝状化能自养细菌。

Sulfur bacteria Filamentous autotrophic chemosynthetic bacteria that derive energy by oxidizing sulfides to elemental sulfur and build up carbohydrates form carbon dioxide .

此外，如研究证实元素硫为超高硫煤中有机相硫的一部分，化能自养型硫杆菌也将能用于脱除煤中该部分有机硫。

Furthermore , if it is substantiated that element sulphur exists in organic sulphur of coal , chemoautotrophic Thiobacillus will be used to remove the fraction of organic sulphur in coal .

化能自养氨氧化细菌负责氨氮的去除，即将氨氮转化成亚硝酸盐，这一过程也是硝化反应中的限速步骤。

Chemoautotrophic ammonia oxidation bacteria are responsible for the removal of ammonia nitrogen , which turns the ammonia nitrogen to the nitrite . This process is the important limiting step in the nitration reaction .

硝化细菌是化能合成的自养生物。

The nitrifying bacteria are chemosynthetic autotrophs .