甘薯抗Ⅰ型薯瘟病的RAPD标记筛选

以金山57×金山630的杂交后代所得的F1分离群体为材料,按F1单株抗性分群,建立抗病池和感病池,分别以其为摸板进行RAPD分析,以获得差异片段.应用RAPD技术筛选了320个随机引物,其中仅1个引物即S213-500在抗感池间扩增出了多态性谱带.应用结果表明该标记与田间鉴定的吻合率较高,能得到重复性验证和可靠的差异性扩增片段,可以作为抗Ⅰ型薯瘟基因的连锁标记.     

西花蓟马(Frankliniella occidentalis)研究进展*

 西花蓟马(Frankliniella occidentalis)属于缨翅目(Thysanoptera)昆虫,最初分布于美国西部,20世纪80年代开始迅速扩散至全球各大洲,目前已在69个国家和地区有报道,成为世界性害虫。F. occidentalis可以以持久性的方式传播番茄斑萎病毒属(Tospovirus)病毒,如番茄斑萎病毒(tomato spotted wilt virus, TSWV);并且,F. occidentalis传播的病毒所造成的经济损失远远大于其本身所造成的损失。因此控制F. occidentalis的种群以及它的扩散是控制Tospoviruses的关键所在,有鉴于此,各国对F. occidentalis进行了深入的研究。主要论述了近年来F. occidentalis在生物学特征、室内饲养以及它和TSWV的互作关系等方面的进展。     

烟草青枯病的研究进展

 烟草青枯病是一种世界普遍发生的重要病害,对该病病原、寄主范围、地理分布、环境与病害的流行以及综合防治进行了综述。     

棉花抗黄萎病机制研究进展

从寄主与病原菌的识别、组织结构、生理生化、微生态等方面简要综述了棉花抗黄萎病机制约研究进畏,并就棉花抗黄萎病机制研究进行了展望。     

土壤调理剂对植烟土壤微生物群落的影响

考察了生物质炭作为土壤调理剂对植烟土壤微生物群落的影响.结果表明,在烤烟生长的各个时期,添加调理剂处理的土壤可培养微生物数量均比未添加调理剂的对照处理高.宏基因组分析表明,添加土壤调理剂处理的微生物群落多样性高于对照,且青枯病发病率和病情指数比对照降低了27.6％和34.6％.由此可知,植烟土壤中添加土壤调理剂可以改善土壤微生态环境,提高土壤微生物群落多样性,维护土壤微生物平衡,从而降低土传病害的发生.     

Effect of Pathogen Synergistic Pathogenicity on Severity of Verticillium Wilt of Cotton

Verticillium dahliae is a soil-borne and vascular pathogen causing Verticillium wilt of cotton, which is one of the most severe diseases affecting cotton production in China. Recently, a soil-inhabiting opportunistic pathogen was isolated and identified as Scopulariopsis gossypii; it could infect the host through wounds and increase disease severity in combination with V. dahliae. S. gossypii was able to form conidia in a nutritionally poor substrate and had similar biological characteristics to other vascular pathogens, while ultrastructure observation also confirmed that it was present in vascular tissue of cotton plants and produced conidia. Nematode activity in soil could cause wounds on the surface of cotton roots resulting in infection by the pathogens. On the basis of our analysis of the biological characteristics and infection process of S. gossypii and its interactions with other pathogens in cotton plants, we propose establishing a research program for multipathogen-host interactions in the cotton rhizosphere, which will enable detailed investigation of the synergistic pathogenesis of S. gossypii and V. dahliae.     

Sulphur accumulation after Verticillium dahliae infection of two pepper cultivars differing in degree of resistance

Elemental sulphur levels, sulphur localization in stems, and levels of sulphate, glutathione and cysteine were studied in pepper ( Capsicum annuum ) cvs Yolo Wonder (higher resistance) and Luesia (lower resistance) after inoculation with Verticillium dahliae , the cause of vascular wilt. Accumulation of elemental sulphur (S⁰) was first detected 10 days after inoculation in Yolo Wonder (mean S⁰ level 7·3  µ g g⁻¹ DW), and 15 days after inoculation in Luesia (mean S⁰ level 3·3  µ g g⁻¹ DW). The maximum level was reached 21 days after inoculation in Yolo Wonder (14·1  µ g g⁻¹ DW). In control plants, elemental sulphur was not detected. SEM-EDX (scanning electron microscopy-energy dispersive X-ray microanalysis) indicated that the sulphur was not restricted to a specific location, but was dispersed throughout the vascular tissue. Sulphate levels showed a decline at the end of the experiment in inoculated plants, possibly related to the increase in sulphur levels seen in the two cultivars. The differences in sulphate levels between the two cultivars may be due to faster sulphate breakdown in cv. Yolo Wonder.     

拟松材线虫研究进展

松材线虫和拟松材线虫共同构成松材线虫复合群体,为松材线虫病的病原物。拟松材线虫危害过去没有引起足够重视,相关研究工作不如松材线虫细致。近年来,随着拟松材线虫致病性增强现象不断被报道,人们逐步加强了拟松材线虫研究。本文从拟松材线虫分类学特征、致病性研究及与松材线虫关系等角度对拟松材线虫研究进展进行综述,并展望未来可能的研究热点。     

Susceptibility evaluation of Picea abies and Cupressus lusitanica to the pine wood nematode (Bursaphelenchus xylophilus)

Pine wilt disease (PWD), recently introduced into Europe, is caused by the pine wood nematode (PWN) Bursaphelenchus xylophilus and is a devastating illness that affects mainly pine trees. It is known that the PWN is capable of infecting other conifers; however, there is currently no information on which other plant species may be susceptible to PWD. In this study, the potential susceptibility of two common species of European forests, Picea abies and Cupressus lusitanica, to PWN was assessed through the monitoring of visual external symptoms, dimension and localization of the nematode population in stems, quantification of total chlorophyll, total soluble phenolics and lignin, at 7, 14, 21 and 28 days after inoculation. The degree of susceptibility was established through the comparison of symptoms with Pinus pinaster, a well‐known PWN host. Furthermore, the stem ultrastructure of P. abies, C. lusitanica and Pn. pinaster was analysed by scanning electron microscopy. The results suggest that P. abies and C. lusitanica are resistant to PWN, and that lignin biosynthesis in these species is affected at an early stage of the infestation. Nevertheless, P. abies seems to be a compatible host that could act as a repository for PWN.     

微波处理松材线虫病疫木技术研究

该文对利用微波处理松材线虫病疫木技术进行了研究，结果表明：不论木材厚薄大小、含水量多少、在微波处理炉腔内怎样堆放，以及环境温度、微波功率等因素的如何变化，只要SWB-Ⅱ型隧道式微波除害处理设备显示的木材表面温度大于68℃，持续30min，就能有效地杀死松木中的松褐天牛和松材线虫。