nitrifying bacteria

The nitrifying bacteria are chemosynthetic autotrophs .

硝化细菌是化能合成的自养生物。

Research on the Application Technology of Nitrifying Bacteria

硝化细菌应用技术研究

Mechanism Study of Tolerance of Immobilized Nitrifying Bacteria Towards Low Temperature

固定化硝化细菌耐低温机理的研究

Study on Analytical and Methods of Nitrifying Bacteria Enrichment Technology

硝化细菌富集技术分析及方法研究

Nitrification Activity and Composition of Nitrifying Bacteria of Soils in China

不同农田土壤中的硝化作用及硝化细菌种群

Application and Characterization of Physiology and Ecology of Compound Nitrifying Bacteria

硝化复合菌群生理生态特性及应用研究

Characteristics of nitrification efficiency with adding nitrifying bacteria to the activated sludge process

投加硝化菌的活性污泥工艺硝化效率特性

NO - 2 in the surface water increased with temperature as nitrifying bacteria became active .

NO-2也会因硝化细菌活动的加剧而增加。

Experimental Study on Purifying Aquaculture Wastewater between Bacillus and Nitrifying Bacteria

芽孢杆菌与硝化细菌净化水产养殖废水的试验研究

Soil Pb contamination had no effect on nitrifying bacteria and soil microbial diversity .

青紫泥和滩潮土中添加Pb浓度为125~625mg/kg，对土壤硝化细菌数量和土壤微生物多样性影响不明显。

Spatial Distribution of Nitrifying Bacteria Communities in Suspended Carrier Biofilm

悬浮载体生物膜内硝化菌群空间分布规律

The autotrophic nitrifying bacteria play a critical role in nitrogen cycle in nature .

硝化细菌是一大类在自然界氮循环中起关键作用的微生物菌群。

A preliminary study on enhanced remediation of an ammonia polluted river by nitrifying bacteria

硝化菌群强化修复氨氮污染河流水体研究

The Possibility of Nitrifying Bacteria Inoculation in Spirulina Mass Culture

螺旋藻大量培养中接种硝化细菌的可能性

Phenol inhibition on nitrification with enriched nitrifying bacteria was studied in this paper .

本文利用富集培养的硝化污泥研究了苯酚对生物硝化过程的抑制效应。

Nitrifying bacteria are very sensitive to the changes of environmental conditions , especially at a low ammonia concentration environment .

一般来说硝化细菌对环境条件的变化比较敏感，而在低浓度氨氮系统中，硝化细菌对环境条件变化的敏感度比高浓度系统更大，而且其影响规律也有所不同。

To increase concentration of nitrifying bacteria and optimize process of nitrification construction is very necessary and meaningful .

因此，提高海水养殖系统硝化细菌浓度，优化硝化功能建立过程，具有十分重要的意义。

Application of PCR-DGGE to analyze the effect of temperature on structure of nitrifying bacteria in A ~ 2 / O system

PCR-DGGE法分析温度对A~2/O系统硝化菌群结构的影响

The efficiency of removing ammonium nitrogen from wastewater is different by immobilized nitrifying bacteria making with different ratio .

不同比例因素制备的固定化硝化细菌小球去除氨氮的效率差别很大。

Primary studies on remove of nitrogen and phosphorus by co-immobilized nitrifying bacteria and chlorella system

固化硝化细菌与小球藻体系去除氮磷效果的初步研究

The mode of long influent and short aerobic is conducive to the growth of nitrifying bacteria .

长时进水短时曝气的运行模式有利于硝化细菌的生长。

Improvement of MPN-Griess detection method on nitrifying bacteria

硝化细菌MPN-Griess检测方法的改进

Pilot study on ammonium removal efficiency and nitrifying bacteria variety in marine biofilter charged with bamboo substrate

竹子填料海水曝气生物滤器除氮性能和硝化细菌群落变化研究

Nitrifying Bacteria and Nitrification in Sediment at the Adjacent Sea Area of Yangtze River Estuary in Summer

长江口邻近海域夏季沉积物硝化细菌与硝化作用

A study on relationships between heterotrophic and autotrophic nitrifying bacteria in bioceramics reactor

生物陶粒反应器中硝化自养菌与异养菌生长关系的研究

Analysis of nitrifying bacteria in short-cut nitrification-denitrification processes by using FISH , PCR-DGGE and Cloning

采用FISH、DGGE和Cloning对短程脱氮系统中硝化菌群的比较分析

Molecular detection of nitrifying bacteria for characterization of nitrogen removal of domestic sewage treatment in A / O membrane biological reactor

A/O工艺膜生物反应器处理生活污水的脱氮特性及硝化菌群的分子检测

The major factors affecting the nitrifying bacteria to NH 4 + N are temperature , DO and biomass bacteria .

影响硝化细菌对NH4+-N转化的主要因素为温度、溶解氧和细菌数量。

The inhibition of copper ion on nitrification activity of nitrifying bacteria in sediment and activated sludge were studied .

研究了铜离子对底泥和活性污泥硝化活性的抑制作用的差异。

High N / C start-up condition was favorable to the growth of nitrifying bacteria , the biofilm was thin relatively .

高N/C启动条件有利于硝化细菌的生长，生物膜相对稀薄。