Resistance to rust (Puccinia arachidis Speg.) identified in nascent allotetraploids cross-compatible with cultivated peanut (Arachis hypogaea L.)

Peanut Science Pub Date : 2021-08-25 DOI:10.3146/ps21-4.1
C. Levinson, Eric Antepenko, S. Leal-Bertioli, Y. Chu, A. Culbreath, H. T. Stalker, D. Gao, P. Ozias‐Akins
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Abstract

Peanut rust, caused by Puccinia arachidis Speg., is a foliar disease that plagues peanut production along with early and late leaf spots, Passalora arachidicola (Hori) U. Braun and Nothopassalora personata (Berk. & M.A. Curtis) U. Braun, C. Nakash, Videira & Crous, respectively. Rust can cause up to 80% yield losses without control and is widespread in tropical countries but is also a sporadic problem in the United States. An integrative plant management strategy with rust resistant peanut cultivars is needed to decrease dependence on costly fungicides and increase yields for farmers who cannot afford or do not have access to fungicides. Only moderate levels of rust resistance have been found in cultivated peanut germplasm, but fortunately, high resistance to rust has been identified in wild Arachis species that can be introgressed into peanut cultivars. In this study, 16 diploid, wild Arachis species, five diploid, interspecific hybrids, 11 unique, allotetraploid interspecific hybrids, and two cultivated peanut controls were tested for resistance to rust. Resistance was evaluated in vitro by incubation time, susceptibility index (calculated based on the number of lesions of different diameters)/ leaf area, total number of lesions/ leaf area, and total number of sporulating lesions/ leaf area. All wild Arachis species tested were very highly resistant to rust, except for A. ipaënsis , the B-genome progenitor of cultivated peanut. Additionally, all interspecific hybrids and synthetic allotetraploids not produced with A. ipaënsis as a parent did not show symptoms for rust. Any of these nine synthetic allotetraploids, BatCor , BatDur 1, BatDur 2, BatSten 1, GregSten , MagCard , MagDio , MagDur , and ValSten 1 are recommended for progression to QTL mapping of rust resistance. These resistance QTLs can be pyramided into peanut cultivars to protect yields in the United States and to increase yields in tropical, developing countries for farmers that cannot afford, or do not have access to, costly fungicides.
与栽培花生(arachhis hypogaea L.)杂交亲和的新生异源四倍体抗锈病的鉴定
花生锈病是由花生锈菌引起的。是一种困扰花生生产的叶面疾病,伴随着早、晚叶斑病,花生黑斑病(Passalora arachidicola, Hori) U. Braun和Nothopassalora personata (Berk。U.布劳恩,C.纳卡什,维迪拉和克劳斯。如果不加以控制,锈病可造成高达80%的产量损失,在热带国家普遍存在,但在美国也是一个零星问题。需要采用抗锈病花生品种的综合植物管理策略,以减少对昂贵的杀菌剂的依赖,并提高那些负担不起或无法获得杀菌剂的农民的产量。栽培花生种质中只有中等水平的抗锈性,但幸运的是,在野生花生种质中发现了高抗锈性,可以渗透到花生品种中。以16种二倍体野生花生、5种二倍体种间杂交种、11种独特的异源四倍体种间杂交种和2种栽培花生为对照,进行了抗锈病试验。通过体外培养时间、敏感性指数(以不同直径的病斑数计算)/叶面积、病斑总数/叶面积、产孢病斑总数/叶面积评价抗性。除栽培花生的b基因组祖先A. ipaënsis外,所有野生花生品种均具有很强的抗锈病能力。此外,所有种间杂交种和合成异源四倍体都没有表现出锈病症状。BatCor、BatDur 1、BatDur 2、BatSten 1、GregSten、MagCard、MagDio、MagDur和ValSten 1这九种合成异体四倍体中的任何一种都被推荐用于抗锈病QTL定位。这些抗性qtl可以被纳入花生品种,以保护美国的产量,并提高热带发展中国家农民的产量,这些农民负担不起或无法获得昂贵的杀菌剂。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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