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排序方式: 共有397条查询结果,搜索用时 174 毫秒
1.
【目的】了解甘肃和青海小麦条锈菌(Puccinia striiformis f. sp. tritici)春季流行传播路线、群体遗传多样性和生殖模式,明确春季流行期两省小麦条锈菌的传播关系及菌源交流规律,进而为两省小麦条锈病的预测预报、确定越夏初始菌源来源和有效治理提供理论依据。【方法】选择条锈病常发生的地区作为调查和研究区域。甘肃省4个试验点:陇南市文县、陇东平凉市崆峒区、中部麦区定西市临洮县、临夏州临夏县;青海省2个试验点:西宁市城北区、海东市互助县。2017年秋季,在甘肃和青海省6个试验点内根据当地小麦播种适期依次种植82份变异观察圃材料。2018年4—8月,对试验点82份变异观察圃材料进行田间病害调查,并采集到551份小麦条锈菌标样,使用15对引物进行SSR分子标记分析。利用GenAlEx和POPPR v2.5.0软件对数据进行相关分析, 不显著的rbarD值表示连锁平衡,用于推断群体是否发生有性重组。【结果】82份变异观察圃材料在甘肃地区发病比青海地区严重。15对引物组合共扩增出81个位点,每对引物组合产生的多态性位点为2—12个。551份样本克隆矫正后,共鉴定出505个多位点基因型(MLG),其中仅有32个MLG被克隆并进行了2—6次重新采样。甘肃和青海群体总的基因型多样性(G=0.917)较高,其中,甘肃平凉群体的最高,青海互助群体次之,甘肃临洮群体最低。小麦条锈菌的遗传变异主要在各群体内部个体之间。春季流行期,菌源在各群体之间交流频繁,青海东部(互助和西宁)群体与甘肃(平凉和临夏)群体之间的基因流高于青海(互助和西宁)群体与甘肃文县群体之间的基因流。最小时空网络图(MSN)和非参数主成分分析(DAPC)表明青海互助和西宁的群体与来自于甘肃平凉和临夏的群体之间菌源关系最密切,差异最小;与临洮群体遗传距离相对较远且临洮群体相对独立;文县群体则是一个完全独立的群体,与其他5个群体之间的差异最大。连锁不平衡分析表明,甘肃文县、临夏和青海西宁群体存在不显著的rbarD值表示连锁平衡,是有性生殖群体,其中文县群体(rbarD=0.0139,P=0.186)显示出明显的有性重组特征。【结论】小麦条锈病春季流行期,甘肃地区与青海东部地区的传播路线以甘肃平凉、临夏到青海的传播为主,甘肃文县到青海的传播为辅。甘肃文县、临夏和青海西宁3个群体存在有性生殖现象,对甘肃、青海地区条锈菌丰富的遗传多样性的形成具有一定作用。 相似文献
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【目的】研究新冬60号、新冬57号、新冬40号和新冬20号小麦白粉病危害程度和田间发生动态,为科学防控小麦白粉病提供理论依据。【方法】采用定期定点调查的方法,系统调查不同品种小麦白粉病发生情况。【结果】新冬60号、新冬57号、新冬40号小麦白粉病田间发生动态基本一致。新冬60号、新冬57号、新冬40号和新冬20号小麦白粉病病情指数最高分别为8.22、7.11、37.63和25.48。新冬60号和新冬57号小麦白粉病田间发生程度极显著轻于新冬40号和新冬20号,新冬40号小麦白粉病田间危害程度极显著重于新冬20号。【结论】新冬60号和新冬57号小麦白粉病田间危害程度极显著轻于新冬20号,可根据田间发病情况,合理减施农药。新冬40号小麦白粉病田间发生程度极显著重于新冬20号,应加强对小麦白粉病的预防。 相似文献
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明确我国当前小麦审定和区试品种含有的抗白粉病基因, 可为这些品种在小麦抗病育种中的应用及品种合理布局和轮换提供依据。本研究采用24个不同毒性的小麦白粉菌菌株对36个小麦审定和区试品种(系)进行抗白粉病基因推导, 参试品种(系)与46个已知抗病基因小麦品种(系)抗谱比较的结果表明, 11个小麦审定品种中有5个品种对所有供试白粉菌菌株表现抗性, 结合亲本溯源, 推测其中有3个品种可能携有Pm21基因; 另外6个审定品种中有5个品种可能含有抗病基因Pm2, 且其对应的亲本或亲本组合中含有抗病基因Pm2。25个区试品种(系)中有3个可能含有Pm21, 10个含有Pm2, 1个含有Pm2+6,2个含有Pm4b,1个含有Pm8。另外, 参试的36个品种(系)中还有9个品种(系)和已知基因品种抗谱存在一定差异。总体上, 推导出已知基因的品种以含有Pm2基因的品种最多, Pm21基因的品种次之, 建议在生产上加强对Pm21基因品种(系)特别是已审定的携有Pm21基因品种的推广和应用, 应该注意一些省份在育种和生产上应慎用或少用含Pm2基因的品种(系)。 相似文献
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Rupinder Pal Singh Puja Srivastava Achla Sharma N. S. Bains 《Journal of Crop Improvement》2017,31(2):183-191
With continuous outbreaks of stripe rust (Puccinia striiformis f. sp. tritici) epidemics and rapid breakdown of deployed resistance in bread wheat (Triticum aestivum L.) cultivars in North West Plains Zone (NWPZ) in India warrant knowledge and deployment of new and durable sources of resistance to stripe rust. Bread wheat cultivar PBW 343, until recently the most widely cultivated wheat variety in India, is now highly susceptible to stripe rust (score 9 on a 1–9 scale), whereas PBW 621 (score 5.05–5.65) and HD 2967 (score 5.40–6.20) show low levels of resistance. We conducted an experiment, spanning three crop seasons (2013–2014 to 2015–2016), in which parental lines, F1 and F2 populations, F3 and F4 families from two bread wheat crosses, PBW 621/PBW 343 and HD 2967/PBW 343 were generated and evaluated for stripe rust resistance against a virulent pathotype. While the F1 revealed partial dominance, the segregation pattern for stripe rust resistance in F2 and F3 showed transgressive segregation for resistance in both crosses. Chi-square analysis indicated that resistant segregants possessed two genes, one contributed by PBW 621 or HD 2967 (depending on the cross) and the other, unexpectedly but obviously, came from the most susceptible cultivar, PBW 343. Possible genetic mechanisms for this residual resistance and implications for breeding programs are discussed. 相似文献
7.
Genomewide association study reveals novel quantitative trait loci associated with resistance towards Septoria tritici blotch in North European winter wheat 下载免费PDF全文
Nana Vagndorf Nanna Hellum Nielsen Vahid Edriss Jeppe Reitan Andersen Jihad Orabi Lise Nistrup Jørgensen Ahmed Jahoor 《Plant Breeding》2017,136(4):474-482
Fungal diseases are a major constraint for wheat production. Effective disease resistance is essential for ensuring a high production quality and yield. One of the most severe fungal diseases of wheat is Septoria tritici blotch (STB), which influences wheat production across the world. In this study, genomewide association mapping was used to identify new chromosomal regions on the wheat genome conferring effective resistance towards STB. A winter wheat population of 164 North European varieties and breeding lines was genotyped with 15K single nucleotide polymorphism (SNP) wheat array. The varieties were evaluated for STB in field trials at three locations in Denmark and across 3 years. The association analysis revealed four quantitative trait loci, on chromosomes 1B, 2A, 5D and 7A, highly associated with STB resistance. By comparing varieties containing several quantitative trait loci (QTL) with varieties containing none of the found QTL, a significant difference was found in the mean disease score. This indicates that an effective resistance can be obtained by pyramiding several QTL. 相似文献
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The inheritance of the Mlk powdery mildew resistance originating from ‘Heine 2174.50’ was analyzed by crossing the Mlk resistant cultivar ‘Ralle’× cv. ‘Amor’ (highly susceptible) and vice versa and by observing the reactions of F1- and F2-plants after inoculation with two different Mlk avirulent powdery mildew isolates. In all cases, a 3 (resistant): I (susceptible) segregation was found in F2. The reactions of the F2plants against the two powdery mildew isolates were identical in each case. Therefore, it is supposed that one dominant resistant gene is responsible for the resistant reactions against these two isolates. These results support the earlier assumption of Heun and Fischbeck (1987b) that the whole Mlk resistance pattern is controlled by a single gene. 相似文献
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Field trials in two cropping seasons and two locations in central China were conducted on 60 Chinese autumn‐sown wheat varieties to assess their partial resistance to powdery mildew. Mean levels of disease severity ranged from close to 0 to more than 90%. The method of inoculation and the location in which trials were conducted affected the relative performance of the varieties, but these effects were much smaller than the main effect of variety. The area under the disease progress curve was highly correlated with final disease severity, but both were poorly correlated with apparent infection rate. Disease severity was regressed against frequencies of virulence in the Blumeria graminis (syn. Erysiphe graminis) f sp. tritici populations in the trial plots. A vertical distance (D) from the mean mildew severity to the fitted line was calculated for each variety and was used to quantify partial resistance. Five of the 60 varieties, ‘Hx8541’, ‘E28547’, ‘Chuan1066’, ‘Zhe88pin6’ and ‘Lin5064’, consistently expressed relatively low levels of disease despite high frequencies of virulence in the pathogen and had consistently high D‐values. They may therefore have good levels of partial resistance. 相似文献
10.
Summary Pathogenicity patterns of 42Mycosphaerella graminicola (Septoria tritici) isolates secured from the major wheat growing regions in Israel, were assessed on seedlings of 16 bread and durum wheats. The spring bread wheat cultivar Titan (CI12615), the winter bread wheats Bezostaya 1, Kavkaz, NE7060 and the durum wheats Nursit 163 and Zenati Bouteille, all exhibited a high level of resistance. Significant cultivar × isolate interactions were recorded for isolates from the different regions in relation to the response of the 16 cultivars organized in 6 reponse classes to the test isolate ISR8036. Number of genes for resistance in the 16 cultivars was estimated, based on the assumption of a gene-for-gene relationship. Twelve complementary genes were hypothesized in the 42M. graminicola isolates × 16 wheat cultivars matrix. There was considerable variation in virulence frequencies between regions and between locations within the same region. The overall frequency of Bezostaya-Kavkaz virulence was low throughout the country (5–7%). The frequency of designated hypothesized virulence genes VST OLAF, VST COLOTANA, VST IAS 20 in Israel, was high in most locations. The reported analytical approach enables the identification of virulence hot-spots and assists in designing breeding for resistance strategies. 相似文献