1.
Determination of Kinetic Parameters of Autotrophic Bacteria from Wastewater Treatment Plant
污水处理厂自养菌生长动力学参数的测定研究
2.
Identification and Sulfide Removal Characteristics of a Desulfurizing Strain
一株脱硫自养菌的鉴定和脱硫特性研究
3.
A Simple Installation of Edible Fungus Seeds in Solution and Automatic Inoculating;
食用菌菌种液体培养及自动接种的简易装置
4.
The nitrifying bacteria are chemosynthetic autotrophs.
硝化细菌是化能合成的自养生物。
5.
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。
6.
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
7.
Optimization Design for Edible Fungus Culture Medium of Mulberry Branches Automatic Production Line;
桑枝食用菌培养基自动化生产线的优化设计
8.
Study on the Control System of the Automatic Processing Equipment for the Edible Fungus Culture Medium of Mulberry Branches;
桑枝食用菌培养基自动加工设备控制系统研究
9.
The Study of Liquid Spawn Culture for Pleurotus Ostreatus and Inoculation Automatic Techniques;
平菇液体菌种培养及接种自动化技术研究
10.
Changing of Dominant Species in Ammonia-oxidizing Population for Deammonification
全程自养脱氮系统中氨氧化菌关键种群的变迁
11.
Phylogenetic Analysis based on the amoA Gene of Ammonia Oxidizers in an Autotrophic Nitrogen-Removal Reactor
基于氨单加氧酶基因的自养脱氮菌群结构分析
12.
Effects of salinity and organic load on the growth of autotrophic and heterotrophic bacteria
含盐量与负荷对好氧颗粒中自养与异养菌的影响
13.
enrichment medium
富集培养基,增菌培养基
14.
The nature of the nutritional requirements for obligate parasites in nature is unknown.
人们还不知道自然界中专性寄生菌的营养要求的本质。
15.
Autotrophic mutants were prepared from six different stocks of the homoictic group.
自养突变体是从同株同核融合类群的6个不同的原种菌系制备的。
16.
Autotrophic mutants were prepared from six different stocks of a special group.
自养突变体是从一个特别类群的6个不同的原种菌系制备的。
17.
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
18.
The Enhancement by Electrical/Magnetic Field and Multi-species Coupling of ANAMMOX Technology for Autotrophic Nitrogen Removal
电/磁场强化厌氧氨氧化及多菌群协同自养生物脱氮