根结

用PhastSystem电泳仪快速鉴定根结线虫种类

Using phastsystem for rapid identification of root knot nematodes

初步得出结论，经过40d黑膜覆盖消毒可有效控制黄瓜根结线虫的发生及危害。

It is preliminarily concluded that soil solarization for 40 d under the wet weather can effectively control the incidence and damage of root knot nematode .

根结线虫种群的线粒体DNA分析

Analysis of root-knot nematode species and populations based on mitochondrial DNA

土壤因子对B2菌防治南方根结线虫的影响

The Effects of Soil Factors on Bacterium B_2 ′ s Control of Meloidogyne incognita

西红柿根结线虫危害性的Fuzzy分析

Fuzzy Analysis of Nematode Harming Tomato

我国南方地区主要根结线虫DNA变异的RAPD分析

DNA polymorphism of root-knot nematodes in South China revealed by RAPD

4种常见根结线虫基因组DNA的RAPD分析

RAPD analysis of four most common Meloidogyne spp

RNA干扰在植物抗根结线虫病基因工程应用中的研究进展

Progress in the Study of RNAi Mediated Plant Root-knot Nematodes Resistant Genetic Engineering

南方根结线虫、爪哇根结线虫M.抗南方根结线虫黄瓜砧木的筛选

The Screening of Cucumber Rootstocks Resistant to Southern Root-knot Nematode

爪哇根结线虫-β1,4-内切葡聚糖酶基因cDNA全长克隆和序列分析

Cloning and sequence analysis of full-length cDNA of β - 1,4-endoglucanase genes of Meloidogyne javanica

利用PCR技术同时鉴定番茄抗根结线虫和抗斑萎病毒基因

Simultaneous Identification of Multi-genes with Resistance Respectively to Root - knot Nematode and TSWV by PCR Markers in Tomato

番茄抗根结线虫病基因的RAPD和SCAR标记

Identification of RAPD and SCAR markers linked to root-knot nematode resistant genes in tomato

杂交植株含有抗根结线虫的Mi基因并对根结线虫表现抗性。

CAPS marker showed that the interspecific hybrids had root-knot nematode resistance Mi gene .

番茄抗根结线虫病基因（Mi）分子标记的评估

Evaluation of Molecule Markers Linked to Root-knot Nematode Resistance Gene ( Mi ) on Tomato

B2菌防治番茄根结线虫病田间试验

The Field Trial of Controlling Tomato Root Knot Nematodes By Bacterium B2

结合室内盆栽和大棚药效试验，分别研究了92%1,3-二氯丙烯EC对番茄根结线虫病的防治效果。

In the pot and field trial , the results showed that 1,3-dichloropropene could effectively control tomato root-knot disease .

5%涕灭威GR不同施药量防治烟草根结线虫病比较试验

Comparative Test of 5 % Aldicarb GR with Different Dosages on Controlling of Tobacco Knot Nematodiasis

本研究的创新点在于国内外首次研制成功了灵敏度达单条线虫的用于南方、爪哇和花生根结线虫检测和鉴定的特异性PCR引物和方法。

Successful development of SCAR-based PCR assays that can sensitively diagnose a single nematode of M. incognita , M. javanica and M. arenaria is reported for the first time .

分子技术用于检测植物根结线虫种间和种内群体间在DNA水平上的根本差异，为根结线虫的鉴定提供快速、准确的方法。

Molecule technology is used to check the DNA difference among interspecies and intraspecies of plant root-knot nematodes in many researches . It provide the fast and exact means to identify plant root-knot nematode .

BABA衍生物对TMV、CMV、疫病和根结线虫亦表现出一定的诱抗潜能。

BABA derivatives also showed potential to induce resistance against TMV , CMV , phytophthora blight and nematodes .

该菌对南方根结线虫（Meloidogyneincognita）的卵寄生率高达60%~70%。

Egg parasitic rate on Meloidogyne incognita is 60 % ~ 70 % .

根结线虫（Meloidogynesp.）严重危害世界农业生产。

Root-knot nematodes ( RKN , Meloidogyne sp. ) are harmful to the agricultural production in the worldwide .

蒙古扁桃对北方根结线虫的抗性鉴定PGPR对番茄南方根结线虫病的影响

Effects of Plant Growth-promoting Rhizobacteria on Root-knot Nematode in Tomato

通过盆栽试验观察了土壤因子对B2菌防治南方根结线虫的影响。

The effects of soil factors on bacterium B_ 2 ′ s control of Meloidogyne incognita were investigated by potted plant trial .

南方根结线虫编码Ras蛋白基因let-60的克隆与功能初步分析

Cloning and Initial Function Analysis of Let-60 , a Ras Protein Encoding Gene in Meloidogyne Incognita

番茄TMV、叶霉病和根结线虫病苗期多抗性鉴定方法的研究

Study on the methode of identification for multiple disease resistance in tomato seedling on TMV leaf mould and root knot nematode

南方根结线虫侵染可引起病株根系GA/ABA升高以及GA含量在生长后期上升，促进营养物质向根部运输，从而造成根系的补偿性生长；

At later growth stage , M. incognita increased GA / ABA and content of GA , so promoted transportation of nutrients to root part and led to the compensation growth of roots ;

pH溶液对南方根结线虫的生长发育也有显著影响，且不同pH值溶液对其卵孵化和2龄幼虫存活的影响趋势一致。

PH value was also an important factor which influenced the growth and development of Meloidogyne incognita . The effect of different pH values on the hatch and survival of 2nd instar larvae of Meloidogyne incognita were almost consistent .

根结线虫基因16D转化烟草和黄瓜的研究

Studies on Transformation of Nematode 16D Gene to Tobacco and Cucumber

黑膜覆盖控制黄瓜根结线虫（Meloidogyneincognita）的效果

Effect of controling root knot nematode ( Meloidogyne incognita ) of cucumber by soil solarization under black plastic film mulching