自养型

它是指在厌氧条件下由自养型ANAMMOX细菌将NH4+-N直接转化为N2。

It is characterized of autotrophic ANAMMOX bacteria transferring NH4 + - N to N2 in anaerobic condition .

这些菌株都具有在自养型培养基上生长的能力。从这些温泉中没有分离出Thermus。

These strains possess the ability to grow on the autotrophic media , Thermus , an extremely thermophilic bacterium was not isolated from these hot springs .

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 .

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

共分析鉴定出孢囊类型29种，其中自养型11种，异养型18种。

Among them , there were 11 autotrophic species and 18 heterotrophic ones .

研究了以自养型硝化生物膜启动厌氧氨氧化反应器的可行性。

The start-up of the ANAMMOX bioreactor by autotrophic nitrifying biofilm was studied .

自养型生物过滤器硝化氧化一氧化氮

Autotrophic Biofilters for Oxidation of Nitric Oxide

自养型硝化细菌生物膜氧化NO的研究及生物膜空间结构定量化的探索

Study on Oxidation of NO by Biofilm of Autotrophic Nitrobacteria and Exploring on the Quantification of Biofilm Spatial Structure

自养型硝化细菌是参与生物脱氮过程中起硝化作用的主要菌群，其硝化速率直接影响污水处理系统的硝化效果和生物脱氮效率，是污水生物脱氮的限制性因素。

Autotrophic nitrobacteria is the main microflora in biological nitrogen removal process , its nitrification rate impact nitrification effect and nitrogen removal efficiency of wastewater treatment system directly .

植物是能进行光合作用，将无机物转化为有机物，独立生活的一类自养型生物。

The plant can carry on the photosynthesis , turn the inorganic matter into the organic matter , a kind of raising by oneself type living beings living independently .

综上，系统达到了新的平衡，好氧硝化颗粒污泥由先前的混合型转变为完全自养型。

In summary , the system reached a new equilibrium . The aerobic nitrifying granules changed from the previous hybrid of heterotrophic and autotrophic kinds to the completely autotrophic type .

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 .