大豆对大豆胞囊线虫侵染的应答机制研究

大豆胞囊线虫病(Heterodera glycines,soybean cyst nematode,SCN)是大豆生产上的重要病害,其特点为危害重、分布广、难防治,每年对大豆生产造成极大的损失。种植大豆抗性新品种是防治SCN目前最为有效的措施,研究大豆对SCN侵染的应答机制,是培育大豆持久抗病品种的前提,对加快抗线虫品种选育及SCN的防控具有重要的意义。本文综述了大豆对SCN侵染的组织细胞学应答机制;介绍了大豆在SCN侵染后酶系变化及酚类代谢的生理生化应答机制;从分子水平阐明了SCN侵染后大豆的基因转录变化,差异蛋白及DNA甲基化的应答机制,以期为大豆胞囊线虫病害的进一步研究与防治提供参考。     

捕食线虫性真菌的分离培养及分布规律

对自然界中的捕食线虫性真菌进行了分离和种属区分，并对分布规律进行了研究。从土壤、粪便等材料中获得了2类活性较强的捕食线虫性菌株：即套捕型(hooping)捕食线虫性真菌和粘捕型(sticking)捕食线虫性真菌。主要的代表种类有3种。这些捕食线虫性真菌在捕食性结构分生孢子形态及某些生物学特性上有一定差异。套捕型捕食线虫性真菌代表种为少孢节丛孢菌(Arthrobotrys oligospara)和梨形指环菌(Dactylaria pyriformis)，它们以菌环、菌网作为捕食性结构(器官)，以套捕方式杀灭线虫幼虫。梨形指环菌可产生多量厚垣孢子(chlamyalospore)。粘捕型捕食线虫性真菌代表种为纺锤隔指孢菌(Dactylella ellipsospora)。可形成菌结捕食线虫性结构，以粘捕的方式杀灭线虫幼虫。结果表明：捕食线虫性真菌在土壤和家畜粪便中的分离率是40．41％；此类菌适合于生存在阴暗、潮湿、富含腐植质的环境中。在温暖季节时，采用0．4g／L玉米粉琼脂培养基(CMA)易于对其进行分离培养。     

捕食线虫性真菌菌种保存技术的研究

本试验对捕食线虫性真菌菌种保存技术进行了研究,测定了在不同介质保存条件下,捕食线虫真菌分生孢子和菌丝的存活情况及其不是寄生性线虫的能力.结果表明:在设定的保存条件下,分别经过1周冷冻融化或2周反复冷冻融化,被保存的分生孢子接种于玉米粉琼脂培养基上能生长发育:在加入线虫第3期幼虫后,能生产捕食器,对虫体发挥捕食作用.     

胃肠道线虫的黏膜免疫

从机体抗胃肠道线虫的黏膜免疫、胃肠道黏膜的抗原加工与递呈、胃肠道黏膜抵御寄生虫的效应机制等几方面论述了胃肠道线虫的免疫机理和免疫学研究的进展，旨在进一步阐明用免疫介入方法防治胃肠道线虫的理论基础，以解决胃肠道线虫治疗过程中的药物残留以及寄生虫的抗药性问题。     

曼陀罗嫁接番茄抗温室根结线虫病研究

以曼陀罗做根砧进行了温室番茄嫁接抗根结线虫病的研究.结果表明:曼陀罗与番茄具有良好的亲合性,嫁接后植株生长势和抗根结线虫能力增强,产量提高,果实无毒,口感同自根苗番茄无明显差别.     

Absence of three known benzimidazole resistance mutations in Trichostrongylus tenuis, a nematode parasite of avian hosts

Benzimidazole (BZ) resistance is widespread in nematode parasites of livestock, but very little is known about the levels of BZ resistance in parasites with avian hosts. We investigated BZ resistance in Trichostrongylus tenuis, a nematode parasite of red grouse, Lagopus lagopus scotica. BZ anthelmintics had been in use in this system for up to 15 years, yet existing phenotypic evidence for resistance was inconclusive. We screened 1530 individuals from 14 populations at the principal β-tubulin locus for BZ resistance (isotype 1, residue 200) and 940 of these at two further resistance sites (isotype 1, residue 167; isotype 2, residue 200). No BZ resistant genotypes were found. Alternative mechanisms may be responsible for BZ resistance in this system, or the method and timing of treatments may reduce selection pressure for BZ resistance by creating substantial refugia for susceptible genotypes.     

芬苯哒唑控释丸对小尾寒羊线虫的临床驱虫效果

选取某羊场临床表现有线虫感染症状的病例,实验室检查证明为自然感染线虫的小尾寒羊20只,分为4组,依次用芬苯哒唑控释丸、0．2％伊维菌素、丙硫咪唑进行驱虫。分别于用药前及用药后第7天取粪便计数虫卵,并于用药后第2天起检查每天由粪便中驱出虫体数量,直至查不出为止。结果表明,芬苯哒唑对羊消化道线虫有更好的杀灭作用,而且有效期更长。     

Spring invasion of Heterodera schachtii in sugarbeet; a simulation study

A simulation model was developed for the spring invasion of the beet cyst nematode,Heterodera schachtii Schmidt, into sugarbeet roots, according to the state variable approach. This model describes the processes of egghatch, emergence of second stage larvae from cysts, migration to roots and penetration into roots quantitatively, using published data.In 1983 a field experiment was conducted to test this model.H. schachtii cysts were introduced at depths 6–29 cm in PVC-cylinders, buried in the soil. The rooting depth of sugarbeet seedlings, growing in these cylinders, was limited to 5 cm by 50 m mesh nylon gauze. Every 10 days the second stage larvae, which had penetrated into the roots of these seedlings were counted. After 50 days, about 40% of the eggs had hatched. More than 20% of the emerged larvae penetrated if the cysts had been buried undeeply, and only 4% if the cysts had been buried at 29 cm depth.The model predicted the course of penetration into the root during the first 40 days with reasonable accuracy (r²=0.79), but in the 5th period of 10 days the model made an overestimation of more than 100%. Egghatch after 50 days was correctly simulated. The differences in penetration into the root between the model and the experiment might result from an oversimplified simulation of the penetration success or the neglection of mortality of second stage larvae. Detailed experiments should be done to provide better parameters for these factors.Samenvatting Volgens de toestandsvariabele-benadering werd een simulatiemodel ontwikkeld van de voorjaarspenetratie van het bietecystenaaltje. Het model beschrijft aan de hand van literatuurgegevens het uikomen van de eieren, het verlaten van de cyst door de larven, de migratie naar en de penetratie in de wortel.In 1983 werd een veldproef uitgevoerd om het model te toetsen. Cysten vanH. schachtii werden op 5 dieptes tussen 6 en 29 cm ingegraven in PVC-cylinders, welke waren verzonken in de bodem. De bewortelingsdiepte van de suikerbiete-zaailingen die hierin groeiden werd beperkt tot 5 cm door nylon gaas van 50 m maaswijdte. Elke 10 dagen werden de larven geteld die in de wortels van deze plantjes waren gepenetreerd. Na 50 dagen was 40% van de eieren uitgekomen. Meer dan 20% van de gelokte larven penetreerden als de cysten ondiep waren ingegraven, en slechts 4% als de cysten op 29 cm diepte waren ingegraven.Gedurende de eerste 40 dagen werd het verloop van de penetratie in de wortel met redelijke nauwkeurigheid door het model voorspeld (r²=0.79). In de 5e periode van 10 dagen maakte het model echter een overschatting van meer dan 100%. Het uitkomen van de eieren werd correct gesimuleerd. De verschillen in penetratie tussen het model en de proef zouden het gevolg kunnen zijn van een oververeenvoudigde simulatie van het penetratiesucces of van het verwaarlozen van de mortaliteit van de migrerende larven. Betere gegevens hierover zullen moeten komen uit detailproeven.     

ITS—RFLP分析进行昆虫病原线虫斯氏属和异小杆属的分类鉴定

本研究通过PCR扩增和六种限制性内切酶（AluⅠ，HinfⅠ，MboⅠ，RsaⅠ，HaeⅢ和PvuⅡ）酶切，对国内害虫防治上常用的几种昆虫病原线虫，包括斯氏属S.car-pocapsae,S.feltiae和S.glaseri以及异小杆属H.bacteriophora,H.zealandica,H.indicus和H.megidis等8个品系rDNA-ITS进行分析。建立起可以区分各线虫种的标准RFLP图谱。该方法快速简便，稳定可靠，需要的样品量少。可以用于新鲜的，或冻存的样品，甚至分析单条的线虫，不仅可进行昆虫病原线虫的快速分类鉴定。而且进一步可以应用于线虫田间释放的辅助监测。实际田间感染率的测定和线虫毒力的比较。