Department of Soil, Plant and Food Sciences, Università degli Studi di Bari Aldo Moro, 70126 Bari, Italy.
Plant Dis. 2018 Sep;102(9):1708-1717. doi: 10.1094/PDIS-08-17-1314-RE. Epub 2018 Jul 2.
Monilinia spp. are responsible for brown rot decay of stone and pome fruit in the field as well as in postharvest. Monilinia laxa and M. fructigena are considered indigenous to Europe, while M. fructicola is a quarantine pathogen in the European and Mediterranean Plant Protection Organization area included in the A2 List. In Italy, it was first reported in 2009 in Piedmont (northern Italy) and rapidly spread to central Italy. We carried out a monitoring program on the occurrence of Monilinia spp. in southern Italy and a comparative characterization of the three main fungal pathogens. Molecular assays based on direct polymerase chain reaction (PCR) and real-time quantitative PCR for molecular identification of Monilinia spp. from rotted fruit were set up, validated, and applied in a monitoring program. Of the tested 519 isolates from 26 orchards, 388 (74.8%) were identified as M. fructicola, 118 (22.7%) as M. laxa, 10 (1.9%) as M. fructigena, and 3 (0.6%) were M. polystroma. M. fructicola colonies grew faster and had a higher optimal temperature for growth (26°C) than M. laxa (23°C) and M. fructigena (20°C). No relevant difference in virulence could be observed on artificially inoculated apricot, cherry, and peach fruit. The fungal species showed different responses to fungicides, because M. fructicola was more sensitive than M. laxa, especially to cyflufenamid, and M. fructigena revealed a lower sensitivity to succinate dehydrogenase inhibitors (boscalid, fluopyram, and fluxapyroxad) and quinone outside inhibitors (mandestrobin). In summary, the two species M. fructicola and M. polystroma were first detected in southern Italy where M. fructicola has largely displaced the two indigenous pathogens M. laxa and M. fructigena; the relative proportions of the three pathogens in orchards should be considered when defining the management of brown rot of stone fruit due to differences in their responses to fungicides.
桑赤霉是引起田间和采后石果和仁果褐腐病的主要病原菌。桑赤霉和 M. fructigena 被认为是欧洲土生土长的,而 M. fructicola 是欧洲和地中海植物保护组织 A2 清单中规定的检疫性病原菌。在意大利,它于 2009 年首次在皮埃蒙特(意大利北部)报道,并迅速传播到意大利中部。我们在意大利南部开展了桑赤霉发生监测计划,并对三种主要真菌病原菌进行了比较特征描述。建立了基于直接聚合酶链反应(PCR)和实时定量 PCR 的分子检测方法,用于从腐烂果实中鉴定桑赤霉,对其进行了验证,并应用于监测计划。在对 26 个果园的 519 个分离物的测试中,388 个(74.8%)被鉴定为 M. fructicola,118 个(22.7%)为 M. laxa,10 个(1.9%)为 M. fructigena,3 个(0.6%)为 M. polystroma。M. fructicola 菌落生长更快,最适生长温度(26°C)高于 M. laxa(23°C)和 M. fructigena(20°C)。在人工接种的巴旦杏、樱桃和桃果实上,未观察到毒力的显著差异。真菌物种对杀菌剂表现出不同的反应,因为 M. fructicola 比 M. laxa 更敏感,特别是对 cyflufenamid,而 M. fructigena 对琥珀酸脱氢酶抑制剂(boscalid、fluopyram 和 fluxapyroxad)和醌外抑制剂(mandestrobin)的敏感性较低。总之,M. fructicola 和 M. polystroma 这两个物种首次在意大利南部被检测到,M. fructicola 已在很大程度上取代了两种土生土长的病原菌 M. laxa 和 M. fructigena;在定义石果褐腐病的管理措施时,应考虑果园中三种病原菌的相对比例,因为它们对杀菌剂的反应不同。
