Lima Edriana A, Furlanetto Cleber, Nicole Michel, Gomes Ana C M M, Almeida Maria R A, Jorge-Júnior Aldemiro, Correa Valdir R, Salgado Sônia Maria, Ferrão Maria A G, Carneiro Regina M D G
First and second authors: Depto de Fitopatologia, Universidade de Brasília, 70910-900 Brasília, DF, Brazil; third author: IRD, UMR RPB F-34394 Montpellier, France; fourth, fifth, sixth, seventh, and tenth authors: Embrapa Recursos Genéticos e Biotecnologia, Laboratório de Nematologia, C.P. 02372, 70849-970 Brasília, DF, Brazil; eighth author: Empresa de Pesquisa Agropecuária de Minas Gerais/EPAMIG-URESM, C.P. 176, 37200-000 Lavras, MG, Brazil; and ninth author: INCAPER/Embrapa Café, Rod BR 363, Km 94, 29375-000 Domingos Martins, ES, Brazil.
Phytopathology. 2015 Jun;105(6):805-14. doi: 10.1094/PHYTO-08-14-0232-R. Epub 2015 Jun 4.
Root-knot nematodes (RKN), Meloidogyne spp., have major economic impact on coffee production in Central and South America. Genetic control of RKN constitutes an essential part for integrated pest management strategy. The objective of this study was to evaluate the resistance of Coffea canephora genotypes (clones) to Meloidogyne spp. Sensitive and drought-tolerant coffee genotypes were used to infer their resistance using nematode reproduction factor and histopathology. Eight clonal genotypes were highly resistant to M. paranaensis. 'Clone 14' (drought-tolerant) and 'ESN2010-04' were the only genotypes highly resistant and moderately resistant, respectively, to both M. incognita races 3 and 1. Several clones were highly resistant to both avirulent and virulent M. exigua. Clone 14 and ESN2010-04 showed multiple resistance to major RKNs tested. Roots of 'clone 14' (resistant) and 'clone 22' (susceptible) were histologically studied against infection by M. incognita race 3 and M. paranaensis. Reduction of juvenile (J2) penetration in clone 14 was first seen at 2 to 6 days after inoculation (DAI). Apparent early hypersensitive reaction (HR) was seen in root cortex between 4 and 6 DAI, which led to cell death and prevention of some nematode development. At 12 to 20 DAI, giant cells formed in the vascular cylinder, besides normal development into J3/J4. From 32 to 45 DAI, giant cells were completely degenerated. Late, intense HR and cell death were frequently observed around young females and giant cells reported for the first time in coffee pathosystem. These results provide rational bases for future studies, including prospection, characterization, and expression profiling of genomic loci involved in both drought tolerance and resistance to multiple RKN species.
根结线虫(RKN),南方根结线虫属(Meloidogyne spp.),对中美洲和南美洲的咖啡生产造成重大经济影响。根结线虫的遗传控制是综合虫害管理策略的重要组成部分。本研究的目的是评估卡内弗拉咖啡基因型(克隆)对南方根结线虫属的抗性。利用线虫繁殖系数和组织病理学,使用对干旱敏感和耐旱的咖啡基因型来推断它们的抗性。八个克隆基因型对南美根结线虫具有高度抗性。“克隆14”(耐旱)和“ESN2010 - 04”分别是对南方根结线虫3号小种和1号小种唯一具有高度抗性和中度抗性的基因型。几个克隆对无毒和有毒的咖啡短体线虫均具有高度抗性。克隆14和ESN2010 - 04对所测试的主要根结线虫表现出多重抗性。针对南方根结线虫3号小种和南美根结线虫的感染,对“克隆14”(抗性)和“克隆22”(敏感)的根系进行了组织学研究。接种后2至6天(DAI)首次观察到克隆14中幼虫(J2)穿透减少。接种后4至6天,在根皮层中可见明显的早期过敏反应(HR),这导致细胞死亡并阻止了一些线虫的发育。接种后12至20天,除了正常发育成J3 / J4外,在维管束中形成了巨型细胞。接种后32至45天,巨型细胞完全退化。后期,在咖啡病理系统中首次报道在年轻雌虫和巨型细胞周围频繁观察到强烈的HR和细胞死亡。这些结果为未来的研究提供了合理依据,包括对参与耐旱性和对多种根结线虫物种抗性的基因组位点的勘探、表征和表达谱分析。
