甘薯茎线虫病

链霉菌Men-myco-93-63防治甘薯茎线虫病初步研究

Biocontrol of Sweet Potato Stem Nematodes Using Streptomyces Men-myco-93-63

概述了马铃薯腐烂线虫（Ditylenchusdestructor）的形态特征、分类地位、生物学特性以及由该线虫引起的甘薯茎线虫病的发病规律和防治要点；

This paper reviews the morphological and biological characters , systematic status of potato rot nematodes ( Ditylenchus destructor ) as well as disease regularity of stem nematode disease of sweet potato and its control techniques .

新疆新传入病害甘薯茎线虫病的研究

A New Disease Spread into Xinjiang ─ Sweet Potato Rot Nematode

几种药剂对甘薯茎线虫病的防治效果

Control Efficiency of Several Nematicides on Stem Nematode Disease of Sweet Potato

克线丹颗粒剂对甘薯茎线虫病的防治效果

Effect of Rugby Granular on Sweet Potato Stem Nematode

马铃薯腐烂线虫与甘薯茎线虫病

Potato Rot Nematodes ( Ditylenchus destructor ) and Stem Nematode Disease of Sweet Potato

甘薯茎线虫病病原线虫的订正

A Revision on the Pathogene tie Nematode of the Stem Nematode Desease of Sweet potato

敌敌畏-盖膜与几种杀线虫剂防治甘薯茎线虫病研究

Study on using ddvy & covering membrane and several nematicides to control stem nematode disease of Sweetpotato

通过遗传分析推测甘薯茎线虫病抗性受单基因控制。

The results suggested that the inheritance of the resistance to SSN was controlled by a single gene .

试验研究了室内、室外不同剂量的克线丹颗粒剂对甘薯茎线虫病的防治效果。

The effect of Rugby granular in different dosage on sweet potato stem nematode was tested in indoor and outdoor experiments .

目前解决甘薯茎线虫病的根本方式是将常规育种和分子育种相结合。

In recent years , the fundamental way to solve the sweetpotato stem nematode disease is to combine traditional breeding with molecular breeding techniques .

传统防治甘薯茎线虫病的方法主要有轮作换茬、药剂防治和选育抗病品种等，但因其高投入低效率和产生的环境问题而暴露出很大的局限性。

Traditional control against D.destructor includes rotation , application of chemical pesticides and breeding resistant varieties , which has exposed significant limitations because of the low efficiency , high investment and environmental problems .

甘薯抗茎线虫病基因的RAPD标记

Identification of RAPD Markers Linked to Stem-nematode Resistant Gene in Sweetpotato

甘薯抗茎线虫病基因SCAR标记辅助育种初探

Initial Application of SCAR Markers Linked to a Gene for Stem Nematode Disease Resistance in Assisted Selection in Sweetpotato Breeding

遗传多态性的RAPD分析可为甘薯抗茎线虫病品种选育的亲本组配提供依据。

RAPD analysis of genetic diversity would be useful in cross combination setting of breeding for high resistance to stem-nematode in sweetpotato .

甘薯糠腐茎线虫病组织病理学扫描电镜研究

SEM Study on Tissue Pathology of Stem Nematode Disease of Sweet Potato

甘薯抗、感茎线虫病品种遗传多态性的RAPD分析

Genetic Diversity Analysis Based on RAPD for Resistance and Susceptibility of Sweetpotato Varieties to Stem-nematode

氨基酸序列同源性分别为92.16%和90.59%，因此认为所克隆的基因是甘薯MIPS基因，并推测该基因可能与甘薯抗茎线虫病有关。

The identities of amino-acid between the gene cloned and MIPS genes of soybean / tomato were 92.16 % and 90.59 % , respectively . So it was suggested that the cloned gene was MIPS gene of sweetpotato and the gene was related to stem nematode resistance .