1.
Ammonia-oxidizing bacteria (AOB) are chemolitho-autotrophs and widely exist in most environments.
氨氧化细菌是一类化能自养细菌,广泛存在于大多数环境中。
2.
The nitrifying bacteria are chemosynthetic autotrophs.
硝化细菌是化能合成的自养生物。
3.
An organism, such as a bacterium or a protozoan, that obtains its nourishment through the oxidation of inorganic chemical compounds as opposed to photosynthesis.
化能自养体相对于光合作用,细菌和原生动物等通过无机化合物的氧化来获取养分的有机体
4.
Elimination Capacity of Nitrogen and Phosphorus of Bacteria in Eutrophication Water
富营养化水体细菌去除氮磷能力研究
5.
Optimization of Liquid Medium for Rhodospirillum Branch of Photosynthetic Bacterium
红螺菌科光合细菌液体培养基的优化
6.
automated microbiology system
自动化细菌鉴别系统
7.
Optimal Cultivation Conditions and Fermentation Technology of Alga-lysing Bacterium W5
溶藻细菌W5培养条件优化及发酵培养
8.
Provides the aquarium and essential bacteria with all the trace elements, minerals needed for strong immune systems.
全面补充宠鱼、化细菌所需营养,提高宠鱼防病能力。
9.
The Analysises of Microbial Community Dynamics and Functional Groups in Autotrophic Denitrifying Sulfide Removial Reactior;
自养脱硫反硝化反应器微生物群落动态及功能菌群分析
10.
Study on Oxidation of NO by Biofilm of Autotrophic Nitrobacteria and Exploring on the Quantification of Biofilm Spatial Structure;
自养型硝化细菌生物膜氧化NO的研究及生物膜空间结构定量化的探索
11.
Effect of the K Bacteria on Nutrients Activation in Lou Soil
钾细菌对土娄土养分活化作用的研究
12.
Study on Bacteriocin-like Substance Fermentation by Immobilized Bacillus Subtilis LL18-4;
类细菌素生产菌LL18-4的固定化培养研究
13.
Study on Antagonistic Function and Mechanism of Photosynthetic Bacteria Against Aquacultural Pathogens;
光合细菌对水产养殖病害细菌的拮抗功能及机理研究
14.
Metabolic Characters and Extended Culture of Auto-Aggregative Hydrogen-Producing Bacterium;
自凝集产氢细菌代谢特性及扩大培养研究
15.
facultative [ obligate ] chemoautotroph
兼[专]性化能自养生物
16.
Molecular Diversity of Marine Attachment Bacteria in the Qingdao Coast and Denitrifying Bacteria in Mariculture Environments;
青岛近海附着细菌和养殖环境反硝化细菌多样性研究
17.
The cell lost its autotrophic character and became dependent on added chemical energy sources.
细胞丧失了自养的特性,变成依赖于外加的化学能源生活。
18.
The Influence of Co-culture Ex Vivo of CD34~+ Cells from Different Two Units Cord Blood on the Homing and Differentiation Ability of Each Other;
体外共培养双份脐血CD34+细胞对各自归巢和分化能力的影响