{"title":"Response of rice genotypes to bacterial leaf streak caused by Xanthomonas oryzae pv. oryzicola, an emerging threat in Nepal.","authors":"S. Gupt, K. Pant, B. Bastola","doi":"10.5455/faa.88960","DOIUrl":null,"url":null,"abstract":"Bacterial leaf streak (BLS) is one of the devastating diseases of rice in Asia, Northern Australia, and West Africa that leads to up to 32% yield losses. Previously, BLS was rare in Nepal, but it has become more common in recent years, and it is supposed to cause significant yield losses. However, studies on various aspects of BLS of rice, such as yield loss assessment, management strategy, germplasm evaluation, etc., have not been done in Nepal. Therefore, realizing the fact that the identification of resistant genotypes is a cost-effective and efficient approach to managing crop diseases; seventy-six rice genotypes were evaluated, along with resistant (Sabitri) and a susceptible (TN1) checks (usually used for bacterial leaf blight) under artificial epiphytotic conditions at the National Wheat Research Program (NWRP), Bhairahawa, Nepal, in the year 2018 and 2019. This study identified thirteen resistant and fourteen moderately resistant genotypes based on the mean percentage of disease severity over two years. The resistant genotypes viz., IR 108196-1-B-B-3-2-5, IR 10A 134, NR 2168-44-2-1-1-1-2-1-1, B 11598C-TB-21-B-7, IR 14D 198, IR 96279-39-3-1-2, IR 103587-22-2-3-B, BP 9474C-1-1-B, IR 10L 185, IR 15L 1735, IR 106529-20-40-3-2-B, IR 15D 1031 and IR 108541:1227-1-3-B-B could be used as resistance sources in the breeding programs. Furthermore, resistant genotypes with high yield potential after evaluation across different environments could be released as BLS resistant varieties in Nepal. This study may be the first effort to identify resistant rice genotypes, particularly against BLS, which is an emerging potential threat to rice production in Nepal.","PeriodicalId":53074,"journal":{"name":"Fundamental and Applied Agriculture","volume":"11 3 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2021-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Fundamental and Applied Agriculture","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.5455/faa.88960","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
Abstract
Bacterial leaf streak (BLS) is one of the devastating diseases of rice in Asia, Northern Australia, and West Africa that leads to up to 32% yield losses. Previously, BLS was rare in Nepal, but it has become more common in recent years, and it is supposed to cause significant yield losses. However, studies on various aspects of BLS of rice, such as yield loss assessment, management strategy, germplasm evaluation, etc., have not been done in Nepal. Therefore, realizing the fact that the identification of resistant genotypes is a cost-effective and efficient approach to managing crop diseases; seventy-six rice genotypes were evaluated, along with resistant (Sabitri) and a susceptible (TN1) checks (usually used for bacterial leaf blight) under artificial epiphytotic conditions at the National Wheat Research Program (NWRP), Bhairahawa, Nepal, in the year 2018 and 2019. This study identified thirteen resistant and fourteen moderately resistant genotypes based on the mean percentage of disease severity over two years. The resistant genotypes viz., IR 108196-1-B-B-3-2-5, IR 10A 134, NR 2168-44-2-1-1-1-2-1-1, B 11598C-TB-21-B-7, IR 14D 198, IR 96279-39-3-1-2, IR 103587-22-2-3-B, BP 9474C-1-1-B, IR 10L 185, IR 15L 1735, IR 106529-20-40-3-2-B, IR 15D 1031 and IR 108541:1227-1-3-B-B could be used as resistance sources in the breeding programs. Furthermore, resistant genotypes with high yield potential after evaluation across different environments could be released as BLS resistant varieties in Nepal. This study may be the first effort to identify resistant rice genotypes, particularly against BLS, which is an emerging potential threat to rice production in Nepal.
细菌性叶斑病(BLS)是亚洲、北澳大利亚和西非水稻的破坏性疾病之一,导致高达32%的产量损失。以前,BLS在尼泊尔很少见,但近年来变得越来越普遍,并且应该会造成重大的产量损失。然而,对水稻BLS各方面的研究,如产量损失评估、管理策略、种质评价等,在尼泊尔尚未开展。因此,认识到鉴定抗性基因型是管理作物病害的一种经济有效的方法;2018年和2019年,在尼泊尔Bhairahawa的国家小麦研究计划(NWRP)中,对76种水稻基因型以及抗性(Sabitri)和易感(TN1)检测(通常用于细菌性叶枯病)在人工外植条件下进行了评估。该研究根据两年内疾病严重程度的平均百分比确定了13种耐药和14种中等耐药基因型。耐药基因型即红外108196 - 1 B - B - 3 - 2 - 5红外10 134年,NR 2168-44-2-1-1-1-2-1-1, B 11598 c-tb-21-b-7,红外14 d 198, IR 96279-39-3-1-2, IR 103587 - 22 - 2 - 3 B, BP 9474 c-1-1-b红外10 l 185红外15 l 1735, IR 106529 - 20 - 40 - 3 - 2 B,红外15 d 1031和红外108541:1227-1-3-B-B可以作为阻力来源在繁殖项目。此外,在不同环境中评估具有高产潜力的抗性基因型可以作为BLS抗性品种在尼泊尔释放。这项研究可能是鉴定抗水稻基因型的第一次努力,特别是针对BLS,这是尼泊尔水稻生产的一个新出现的潜在威胁。