rhizobia单词基本解析：

n.根瘤菌(rhizobium的复数); 根瘤菌( rhizobium的名词复数 )
rhizobium 的复数
n.根瘤菌(rhizobium的复数)；根瘤菌( rhizobium的名词复数 )；

rhizobia变化用词：

rhizobia英英释义：

名词 rhizobium:

the type genus of Rhizobiaceae; usually occur in the root nodules of legumes; can fix atmospheric oxygen

同义词：Rhizobium, genus Rhizobium

RhizobiaSoybean root nodules, each containing billions of [[Bradyrhizobium bacteria]]

以上来源于:Wikipedia

rhizobia中文词源：

rhizobia用法和例句：

rhizobia

Effects of AMF and Rhizobium co-inoculation on alternative plantation of rice bean and corn

AMF和饭豆根瘤菌对饭豆、玉米套种促生作用的研究

Effect of pH on nodulation of soybean rhizobia from Weifang and Huayuankou soils.

pH对土壤中土著快、慢生大豆根瘤菌结瘤的影响。

It is obvious that RAPD method have been used in the research of peanut rhizobium and peanut nematode (eelworm) disease.

RAPD技术在花生根瘤菌、花生线虫病等方面已有显著进展。

Identification and phylogenetic analysis of closely related rhizobium species by rRNA gene intergenic spacer sequence

rRNA基因间隔区序列用于亲缘关系密切的根瘤菌种群鉴定及系统发育分析

Influence of Dual Inoculation of VA Mycorrihizal Fungus and Phosphorus Dissolving Bacteria and Rhizobia on the Growth of Tobacco Seedlings

VA菌根真菌与根瘤菌和溶磷菌双接种对烟苗生长的影响

Effects of VAM and Rhizobia on growth and nitrogen fixation of wing bean

VA菌根真菌和根瘤菌对翼豆生长、固氮的影响

Li S M,Li L,Zhang F S.Enhancing phosphorus and nitrogen uptake of fabe bean by inoculating arbuscular mycorrhizal fungus and Rhizobium leguminosarum[J].J.of China Agric.Univ.,2004,9(1):11-15.

[11]李淑敏,李隆,张福锁.丛枝菌根真菌和根瘤菌对蚕豆吸收磷和氮的促进作用[J].中国农业大学学报,2004,9(1):11-15.

Ma Y Z, Shi Q L.Effects of continuous inoculation of peanut rhizobia and application of Mo in combination with P[J].Soils and Fertilizers,1992 (3) :40-42.

[4]马玉珍,史清亮.花生根瘤菌连续接种与钼、磷肥配合施用效果[J].土壤肥料,1992(3):40-42.

16S rDNA PCR-RFLP analysis and numerical taxonomy for rhizobia Isolated from Trifolium,Crotalaria and Mimosa

三叶草、猪屎豆和含羞草植物根瘤菌16S rDNA PCR-RFLP分析和数值分类研究

Preliminary study on the ability of phosphorus-solubilizing and IAA-secreting of endogenous rhizobia in seeds of different alfalfa varieties

不同品种紫花苜蓿种子内生根瘤菌溶磷和分泌生长素能力

SURVIVAL POTENTIAL OF luxAB MARKED RHIZOBIUM FREDII IN SOIL AT DIFFERENT MATRIC POTENTIAL

不同基模势下luxAB标记的弗氏中华根瘤菌在土壤中的存活能力

Nodules are not found on all species of legumes, nor are all species of Rhizobium capable of making nodules on leguminous plants.

不是所有的豆类植物中都能找到根瘤，也不是所有的根瘤菌都能在豆类植物中形成根瘤。

Unlike our relatively extensive knowledge of rhizobia, we know little about the ecology of most of the organisms under consideration as inoculants.

与根瘤菌不同，我们对作为接种剂大多数微生物生态学的了解还很少。

Genetic Diversity of Vigna unguiculata Rhizobia From the North Region of China

中国北方地区快生豇豆根瘤菌的多样性研究

Diversity of Leguminous Rhizobia in Pamirs Plateau of China

中国帕米尔高原豆科植物根瘤菌多样性研究

To ensure N available from BNF does not limit legume yield, many farmers inoculate their crops with rhizobia.

为确保来自生物固氮的有效氮不限制豆科作物的产量，许多农民用根瘤菌接种他们的作物。

ROOT NOKULES induced by the nitrogen-fixing bacterium Rhizobium are part of a symbiotic relationship (see symbiososis).

也有其他情况，如：由一种固氮菌--根瘤菌诱导产生的根瘤（ROOTNOKULES）与根就是一种共生关系。

They, using agglutination, complementfixation, and precipitate tests, divided Rhizobium cultures from 18 legumes into nine characteristic serological groups.

他们用凝集作用，补体结合试验和沉淀素试验把从18种豆科植物分离出来的根瘤菌培养物分成9个具有特点的根瘤菌血清类群。

Preliminary study of the metabolic characters of CoQ10 batch fermentation with Rhizobium radiobacter WSH2601 was carried out.

以放射型根瘤菌WSH2601作为辅酶Q10分批发酵的试验菌,对其代谢特性进行了初步研究。

Rhizobium strain A106L (a member of the A106 series) nodulating Astra-galus sinicus was taken as parent strain.

以紫云英根瘤菌A106L(A106菌系的一株)为出发菌株,在正常培养条件下得到的170个分离系中,有19个分离系对紫云英无结瘤能力;

A Study on Growth of Rhizobium leguminosarum in Air Pressure Oscillating, Solid-State Fermenter

以麦秸为基质豌豆根瘤菌的压力脉动固态发酵

Any management strategy that increases yield potential of the legume will increase BNF provided sufficient rhizobia are available for adequate nodulation.

任何一种提高豆类作物产量潜力的管理策略只要有足够的根瘤菌供充分结瘤用就可以提高生物固氮。

Recently based on the taxonomy of a number of rhizobia, we discovered the symbiotic promiscuity of rhizobia and legumes with the difference of regional geographical environments.

但根瘤菌与豆科植物共生体与地理环境的关系却很少被涉及过。

Next to ensuring there are sufficient rhizobia available to the crop the most important factor influencing response to N is the N already available in the soil at planting.

保证土壤中有充足的根瘤菌后，影响氮肥肥效的最重要因素是接种时土壤中可利用的氮。

Like rhizobia, the nitrogen-fixing endophyte Frankia elicits the formation of specialized root nodule structures which house BNF processes.

像根瘤菌一样，固氮的内寄生弗兰克氏菌能够诱发特殊的根瘤结构，在其中进行生物固氮过程。

Identification of the Total DNA Probe Labelled by Photobiotin for Soybean Rhizobia

光敏生物素标记总DNA探针对大豆根瘤菌的检测

symbiosis (especially mycorrhizae and rhizobia);

共生(尤其菌根和根瘤菌);

Examples of symbiotic organisms include Rhizobium, Frankia, and mycorrhizae.

共生微生物包括根瘤菌、弗兰克氏菌及菌根真菌。

rhizobia ,invasive plant ,Mimosa sp. ,Mimosa pigra ,symbiont ,nitrogenase

关键词:根瘤菌,入侵植物,含羞草属,刺轴含羞木,共生,固氮?

Keywords Soil;Rhizobia;Copper;Zinc;Cadmium;Fractionation.;

关键词土壤;根瘤菌;铜;锌;镉;重金属形态;

Keywords rice bean（Vigna umbellate L. ）;rhizobium;Cu 2+;biotoxicity;soil;

关键词饭豆;根瘤菌;铜;生物毒性;土壤;

Title： DIVERSITY OF RHIZOBIA ISOLATED FROM RICE BEAN (VIGNA UMBELLATE L.

关键词：饭豆;根瘤菌;多样性;质粒图谱;聚类分析

We also discovered that slow growers and moderate slow growers of rhizobia form symbiosis with Trifolium, slow growers with Mimosa and fast growers with Crotalaria.

分离自含羞草的根瘤菌的慢生菌株和分离自猪屎豆的根瘤菌的快生菌株 ,此项研究也进一步证实这两种研究方法在菌株归群上的一致性

It was suggested preliminarily that the strains of ACCC16101 and ACCC16103 were preferred for rhizobium inoculation and rhizobium inoculants production for pea ‘Yannong2’.

初步认为对豌豆品种‘燕农2号’，菌株ACCC16101和ACCC16103是根瘤菌接种、根瘤菌剂生产的首选菌株。

Study on Rhizobia Infections to Tobacco Hairy Roots by Using Reporter Gene lacZ

利用标记基因lacZ研究根瘤菌对烟草发根的侵染

The infrared spectra of pure cultures of 36 strains rhizobia were recorded and analyzed.The results showed that the method used can give us spectra with high resolution, good re-productivity.

利用红外光谱仪记录并分析了36株根瘤菌菌体的红外光谱图，表明所得图谱分辨率高、重现性好，并且在特定光谱区域显示特征吸收峰。

Further research will, no doubt, be aimed towards further characterization of both Rhizobium and plant genes.

勿庸置疑,今后的研究应该进一步认识根瘤菌和植物双方基因的特征。

Further research will, no doubt, be aimed towards further characterization of both Rhizobium and plant genes

勿庸置疑，今后的研究应该进一步认识根瘤菌和植物双方基因的特征。

Phenotypic and genetic diversity of rhizobia isolated from root modules of Hedysarum spp. Grown in the northern and northwestern regions of China

华北及西北地区岩黄芪根瘤菌的表型及遗传多样性

There are changes of esterase isozyme with different carbon resources to Rhizobium Sp.

同一菌株在不同碳源上酯酶同工酶酶谱也发生改变。

On the other hand, using the protoplast fusion technique, rhizobia strains of different category and species were fused to breed new genetic engineer strains possessing wide inoculation.

同时，利用原生质体融合技术进行根瘤菌的属间及种间融合，选育结瘤范围更广的遗传工程新材料。

The method of DTA analysis can reflect the difference of substances and pyrolysis of strains, and obvious diversity of rhizobia can be indicated and regarded as assistant means in rhizobia taxonomy.

同时，在一定程度上可作为辅助手段用于根瘤菌的分类研究。

Characterization Analysis of Recombinant Plasmid pZ-55 Containing hup Genes from Rhizobium arachis

含花生根瘤菌吸氢基因重组质粒pZ-55的特性分析

Thus, the infrared spectra analysis can reflect the relationships of rhizobia, but in practice, there were some difficulties.

因此，红外光谱分析在一定程度上可反映根瘤菌的分类地位，但实际应用起来，仍有一定的困难。

Fig.2 The TEM Photo of STLR section with numerous Rhizobia inside the cell of STLR.

图2短化、膨大的次生根瘤状结构(STLR)的切片电镜照片，其中显示STLR细胞内的根瘤菌菌体.

Except for IAM13129, B33 and 711, at the similarity level of 75% dendrogram derived from 16S rDNA RFLP-PCR showed that all isolates were devided into two phylogenetic branches: Rhizobium and Sinorhizobum and unknown one.

在75%的相似水平上，除了IAM13129，B33，711，所有供试菌株全部聚群，分为Rhizobium和Sinorhizobum系统发育分支和未知系统发育分支。

The number of rhizobia decreased with the pH value of soil reducing.

在不同酸性土壤悬液中，土壤悬液酸性降低，根瘤菌数目随之减少。

Pellet-coating rhizobium inoculation techniques have been widely applied in aerial sowing of pasture legume seeds for degenerated grasslands in the north and grasshills in the south.

在北方退化草原及南方退化草地改良工程中，飞机播种豆科牧草种子普遍采用丸衣化接种根瘤菌技术，利用根瘤菌与豆科植物共生固氮作用，有效地解决了人工草地的缺氮问题。

Less effective strains of rhizobia among populations in soils where invasive rhizobia are present for the crop may, to some extent, be displaced by inoculant strains.

在有外来根瘤菌的土壤中，在某种程度上群体间低效根瘤菌菌株可以被接种菌株所取代。

Within the nodule, rhizobia proliferate in very dense clusters of cells with altered morphology.These cell forms are called bacteroids.

在根瘤中，根瘤菌在形态改变的细胞中大量增殖紧密排列，这些，细胞组织被称作类菌体。

There, the host envelopes the rhizobia in a peribacteriod membrane and connections to the root vascular system are formed.

在此，寄主在类菌体膜中把根瘤菌包裹起来，并形成与根的维管束连接。

Industries for production and distribution of legume inoculants containing the nitrogen-fixing soil bacteria rhizobia have been well established for more than 60 years.

在过去的60多年里，建立了生产和销售包含土壤固氮细菌的豆科接种剂的工业。

Eight small scale field experiments located in the east of Hubei Province were conducted in 2006 to study the effect of mixed application of peanut rhizobia and Mo,P and N fertilizer on peanut yields.

在鄂东地区选择8个花生种植地作为田间试验点,研究了花生根瘤菌与钼、磷、氮化肥混合施用对花生的增产效果。

Studies on Hydrogenase from Rhizobium japonicum and Rhizobium arachis

大豆和花生根瘤菌氢酶的研究

Study on intergrowth and matching of soybean rhizobium and main soybean variety of Heilongjiang province

大豆根瘤菌与黑龙江省主栽大豆品种共生匹配的研究

Investigation of rhizobium resources of leguminous plants and their ecological distribution in Ningxia

宁夏豆科植物根瘤菌资源调查及其生态分布

The formation of nodule needs both legume plant and the rhizobia, that from soil or cultural medium.

它的形成需要土壤中的根瘤菌或人工培养的根瘤菌与植物共同形成。

Laboratory cultures of the rhizobia can fix ??only under special cultural conditions.

实验室培养的根瘤菌只有在特殊培养条件下才能固氮。

Preferably, the plus N treatment should also be inoculated to ensure that yield increase is due to mineral N effects beyond that obtainable with sufficient rhizobia.

对氮处理若能接种则更好，这样就进一步明确增产中超过足量根瘤菌可获得产量水平以上的是矿质氮素的作用。

A review will be established in this paper to introduce the perception mechanism, signal transduction ways and feedback regulation of rhizobium Nod factor in leguminous plants.

就豆科植物根瘤菌结瘤因子感知机制、信号转导途径及反馈调控等方面的研究进展进行了全面阐述。

The effects of increasing nodule percentage and biomass yields of inoculating rhizobia on seeds were greater than that of inoculating rhizobia on soil.

并且根瘤菌直接拌种后下播的处理比根瘤菌拌土后再播种的效果要好。

Study on competitive nodulation ability of Rhizobium meliloti in field test by using RAPD Molecular Marker Method

应用RAPD分子标记技术研究苜蓿根瘤菌的田间竞争结瘤能力

The Main Factors Influencing on Symbiotic Nitrogen Fixation Efficiency of Rhizobia and Genetic Improvement

影响根瘤菌共生固氮效率的主要因素及遗传改造

Cloning and Analysis of exo Gene Required for Nodule Invasion and Development of Rhizobium astragali

影响紫云英根瘤菌入侵和根瘤发育的exo基因的克隆及分析

A Competition Between Fast and Slow-growing Soybean Rhizobia and Distribution in the Field

快生型大豆根瘤菌的结瘤竞争性及其田间分布调查

STUDY ON GENETIC DIVERSITY OF SLOW-GROWING RHIZOBIA OF GLYCINE MAX

慢生型大豆根瘤菌的遗传多样性研究

Studies on genetic diversity and phylogeny of slow-growing rhizobia isolated from Vigna radiata at main ecotypes of China

我国主要生态区域绿豆慢生根瘤菌的遗传多样性和系统发育研究

fredii USDA 205.But there are heterogeneous antigen componets between soybean rhizobia fast-growing and slow-growing.

所有的快生型大豆根瘤菌和慢生型大豆根瘤菌之间无相同的抗原成分。

It is believed that legume farmers in China could save much of the estimated 2,632 million RMB spent every year on mineral N by inoculating their crops with Rhizobium.

据估计，中国若用根瘤菌接种豆类作物替代氮肥，每年可节约花在氮肥上的资金2.682亿元的大部分。

Enhancement of Growth by Inoculating Different Rhizobium Strains in Intercropped Wheat and Fababean

接种不同根瘤菌对间作蚕豆和小麦生长的促进作用研究

Inoculation will supply highly effective rhizobia to the crop in soils where the organism is not present or populations are small.

接种将为生长在缺乏生物体或其群体小的土壤上的作物提供高度有效的根瘤菌。

Effects of Rhizobia Inoculation on the Growth of Straight-stem Acacia auriculaeformis Seedlings and the Contents of Soil Nutritive Elements

接种根瘤菌对直杆型大叶相思幼苗生长及土壤营养元素含量的影响

The applying of soybean rhizobium inoculation were usually not success in Chinese soybean field.

摘要 我国大豆种植区使用人工选育制成的根瘤菌剂接种效果不稳定。

Abstract: The field experiment was conducted to study the effects of inoculating different rhizobium strains on growth and nitrogen fixation of pea‘Yannong2’.

摘要 ：通过田间定位试验，研究了‘燕农2号’豌豆品种接种5种不同根瘤菌后的生长态势、产量、结瘤状况及固氮效应。

The study was conducted to investigate and collect the rhizobia in Pamirs Plateau of China: the symbiotic resources with leguminous plants, and analyze the characteristics of their nodules and their resistances to adversities.

摘要对帕米尔高原进行了根瘤菌－豆科植物共生资源的调查与收集，分析了根瘤的特徵和根瘤菌的抗逆性。

The symbiosis between rhizobia and legumes is important to the sustaining farming, forest and animal husbandry.

摘要根瘤菌与豆科植物形成的根瘤或茎瘤固氮共生体系在农、林、牧业的可持续发展中具有重要作用。

Rhizobia could intrude into legumes and form nodules in their roots and stems, and could fix nitrogen in the atmosphere and supply nutrition to the host plants.

摘要根瘤菌可以入侵豆科植物形成根瘤或茎瘤，并可固定空气中的氮为其宿主植物提供必需的氨素营养。

The nodulation character and resources distribution of Rhizobium sp. (Caragana) and strain physiological and chemical characteristics in Shanxi Province have been discussed in this paper.

摘要研究了山西锦鸡儿根瘤菌资源分布、菌种形态特征、理化特性及其生态学适应性与生态效应。

Genetic diversity of peanut Rhizobia isolated from Anhui areas was determined using randomly amplified polymorphic DNA (RAPD) technique.

摘要采用RAPD技术对分离自安徽地区的花生根瘤菌和部分参比菌株进行了遗传多样性和系统发育研究。

Keywords Rhizobium radiobacter;coenzyme Q10;promotor;fermentation;

放射型根瘤菌;辅酶Q10;促进剂;发酵;

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