黄锈病持久抗性鉴定

Q4 Agricultural and Biological Sciences International Journal of Phytopathology Pub Date : 2022-04-30 DOI:10.33687/phytopath.011.01.4079
Amir Afzal, A. Riaz, Sharmin Ashraf, Javed Iqbal, M. Ijaz, F. Naz, Syed K. N. Shah
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引用次数: 3

摘要

小麦黄(条)锈病是全球农作物产量严重下降的原因。选用耐久的抗病品种是经济有效且安全的最佳策略。对小麦条锈病持久抗性来源进行了综合研究。最初,对作物的监测是为了揭露这种困境的现状。该研究发现,该病在开伯尔-普赫图赫瓦省(KPK)和旁遮普北部地区更为普遍。温室条件下病原菌的小种鉴定显示出较高的多样性,至少确定了11个小种。70E0的流行率最高(39%)。多地点诱捕苗圃的培养获得了证明抗病基因的宝贵信息,其中Yr5、Yr10、Yr15和YrSp在所有地点都是有效的。从研究机构收集的72个高级品系在温室中进行筛选,根据其苗期对病害的反应对试验材料进行分类。试验材料包括从不同研究机构收集的72个高级品系,在一个温室中筛选,根据它们在苗期对疾病的反应对试验材料进行分类。通过2年田间易感和中易感幼苗的研究,对慢锈病和快锈病进行了分类。宿主的遗传多样性允许遗传组织的变化来适应环境的变化。系数亲子鉴定揭示了受试材料有限的遗传基础。在小麦先进系系谱中,Pastor, Kauz, Inqilab-91, Sokoll, Ae。Aquarosa(211)、WBLL-1、Kukuna和Millan在72对父母中占60%。目前的研究结果表明,需要具有广泛遗传背景的持久耐药基因型来养活不断增长的人口。
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Identification of Durable Resistance against Yellow Rust
Yellow (stripe) rust of wheat is responsible for a severe decrease in crop yield worldwide. Deployment of durable disease resistant cultivars is the best strategy being cost effective and safe. A comprehensive study was conducted to identify sources of durable resistance against stripe rust of wheat. Initially, surveillance of the crop was conducted to expose the status of the dilemma. The study discovered that disease is more prevalent in the region existing in Khyber Pakhtunkhwa (KPK) and the Northern Region of Punjab. Race identification of the pathogen under glasshouse conditions revealed high diversity and at least eleven races were designated. Prevalence of the race 70E0 was most dominating (39 %). Cultivation of multi-location trap nurseries yielded valuable information demonstrating disease-fighting genes where, at all locations, Yr5, Yr10, Yr15, and YrSp were effective. Seventy-two advanced lines collected from research institutions were screened in a glasshouse to categorize the test material based on their response to disease at the seedling stage. Test material comprising seventy-two advanced lines collected from different research institutions was screened in a glasshouse to categorize the test material on the ground of their response against disease at the seedling stage. Slow and fast rusters were categorized by studying susceptible and moderately susceptible seedlings in the field for two years. Genetic diversity in the host allows changes in the genetic organization to adapt to environmental changes. Coefficient parentage revealed the test material's restricted genetic base. In the pedigree of wheat advanced lines, Pastor, Kauz, Inqilab-91, Sokoll, Ae. Aquarosa (211), WBLL-1, Kukuna, and Millan were 60% out of a total of 72 parents. Findings of the present studies revealed persistent resistant genotypes with a broad genetic background are needed to feed a growing population.
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来源期刊
International Journal of Phytopathology
International Journal of Phytopathology Agricultural and Biological Sciences-Agricultural and Biological Sciences (miscellaneous)
CiteScore
1.20
自引率
0.00%
发文量
11
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