在富难溶性磷土壤上,施用磷细菌肥可以提高土壤速效磷含量。
In the rich sparingly soluble phosphorus soil. Phosphorus bacteria fertilizer could increase the content of soil available phosphate.
因此,本发明为开发杨树专用解磷细菌肥料提供了优良的菌株资源。
Therefore, the invention provides a desirable strain resource for developing a phosphorus-dissolving bacteria fertilizer special for the poplar.
研究解磷细菌和丛枝菌根真菌同时接种,对低磷土壤养分利用的影响。
Effects of Different AMF Strains Inoculation on Tomato Growth and Nutrient Absorption during Seedling Stage;
复合肥有利于提高固氮菌和钾细菌数量,磷酸铵促进了磷细菌数量的增长。
The compound fertilizer improved the population of azotobacter and potassium bacteria, and the phosphate ammonium enhanced the population of phosphobacteria.
但也许是时候更新这份必需元素目录了,因为科学家们发现一种细菌会用砷来代替磷,不需要磷也可生存。
But it might be time to update that list. Because scientists have found a bacterium that can do without phosphorus-live on arsenic instead.
最近发现的一种细菌可以用砷替代磷作为生命组成的基本元素。
A bacterium has been discovered that can substitute arsenic for phosphorus in fundamental life chemistry.
一种细菌在这种情况下继续繁殖,而检测证实这种生命用砷代替了缺乏的磷合成了它们的DNA。
One bacterial strain continued to thrive. And tests confirmed that the organisms compensated for the lack of phosphorus by building their DNA with arsenic instead.
最近发现的一种细菌可以用砷替代磷作为生命组成的基本元素。
A bacterium has been discovered that can substitute arsenic for phosphorus in fundamental life chemistry. Christopher Intagliata reports.
因为砷和磷有一些相同的化学特性,研究人员早有预感有这种细菌存在。
The researchers had a hunch a bug like this might exist, because arsenic has some chemical properties in common with phosphorus.
因为科学家已经发现了一种不需要磷的细菌,而是用砷作替代物。
Because scientists have found a bacterium that can do without phosphorus-live on arsenic instead.
通过分析试图了解这一生态系统中降解有机磷农药氧乐果细菌的季节消长动态。
Through analysing, we attempt to know the degrading omethoate bacteria's development of seasonal growth and decline in this ecosystem.
硅酸盐细菌有很强的解钾能力,同时还有解磷和固氮能力。
Silicate bacterium has the strong ability of dissolving K, P and the ability of fixing n.
鸭粪明显污染了鸭场附近的水质,增加了水中的细菌、大肠杆菌、氮、磷和COD量。
The duck dung clearly polluted the water quality around duck Spaces, increased the amount of bacteria, bacteria coil, nitrogen, phosphorus and COD.
探讨共同固化硝化细菌与小球藻体系生物量变化与去除氮磷效果的关系。
To study the relationships between the co-immobilized nitrifying bacteria and Chlorella system and the remove efficiency of nitrogen and phosphorus in waste water.
前言:目的确立胞磷胆碱钠氯化钠注射液细菌内毒素检查方法。
Objective: to establish a method of bacterial endotoxins test for citicoline sodium and sodium chloride injection.
对天津市东丽区和西青区两个富营养化池塘中的细菌及其解磷特性进行了研究。
The bacteria and their phosphorolysis characteristics of two eutrophic ponds in Dongli District and Xiqing District were studied.
第二,磷能够加快细菌生长速率;
Secondly, phosphorus can increase the growth rate of suspendedbacteria.
结果表明,微生物脱磷过程主要是细菌代谢产物对难溶磷酸盐的解离作用和细菌的过量摄磷作用。
The result of researches show that the main processes of dephosphorization are the uptake of by microorganisms and dissociating function of the apatite by the metabolic products of microbes.
通过建立环磷酰胺(CP)诱导的免疫抑制小鼠模型,研究了Z 0206细菌富硒多糖(SPS)的免疫调节功能。
The immunoregulatory effect of the enriched-selenium polysaccharide (SPS) produced by Z0206 was investigated by establishment of cyclophosphamide (CP) induced immunosuppressive mice model.
G -BAF的载体表面附着有大量的细菌以及多种形态的原、后生动物,增强了对氮、磷及难降解有机物的去除能力。
There are lots of bacteria, protozoan and metazoan species immobilized on the carrier surface in G-BAF, which can enhance the removal effect of nitrogen, phosphorus and refractory organic compounds.
因为科学家已经发现了一种细菌,可以无需磷生活而以砷代替。
Because scientists have found a bacterium that can do without phosphorus-live on arsenic instead.
摘要 :磷壁酸是革兰氏阳性细菌细胞壁的重要成分,磷壁酸酶是一种特异性地降解磷壁酸的磷酸二酯酶。
Abstract : Teichoic acids are important components of cell wall in gram-positive bacteria, and teichoicase is exactly the enzyme that can degrade teichoic acids specifically.
通过介绍特征污染物含碳有机物(BOD_5)、悬浮物、总氮、磷、重金属以及细菌的去除,阐述了污染物去除的基本特征和作用机理。
The characteristics and function mechanism were illustrated through the elimination of pollutants such as BOD5 , SS, NH3-N, P, heavy metals and microbes.
DNA的磷硫酰化修饰广泛存在于细菌中。
DNA phosphorothioate modification exists in a wide variety of bacterial species.
DNA的磷硫酰化修饰广泛存在于细菌中。
DNA phosphorothioate modification exists in a wide variety of bacterial species.
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