内布拉斯加州由大豆尖镰孢菌大豆专化型引起的大豆猝死综合征的首次报道

Ziems A D, Giesler L J, Yuen G Y

Department of Plant Pathology, University of Nebraska, Lincoln 68583.

Plant Dis. 2006 Jan;90(1):109. doi: 10.1094/PD-90-0109C.

During August of 2004, soybean (Glycine max (L.) Merr.) plants exhibiting symptoms typical of sudden death syndrome (SDS) caused by Fusarium solani (Mart.) Sacc. f. sp. glycines (= Fusarium virguliforme Akoi, O'Donnell, Homma, & Lattanzi) (1) were observed in Nemaha and Pierce counties in eastern Nebraska. Leaf symptoms ranged from small chlorotic spots to prominent interveinal necrosis on plants at R5-R6 growth stages. Taproots of symptomatic plants were plated on potato dextrose agar (PDA) amended with hymexazol, ampicillin, and rifampicin (HAR). Resulting fungal isolates grew slowly and developed masses of blue macroconidia, characteristic of F. solani f. sp. glycines. Sorghum seed infested with the isolates were placed 1.5 cm below soybean seeds of the susceptible cv. Sloan planted in clay pots (3). Noninfested sorghum seed and sorghum seed infested with F. oxysporum were controls. Plants were maintained for 32 days at 27.5 ± 2.5°C in the greenhouse. Small cholorotic spots were observed on leaves of F. solani f. sp. glycines-inoculated plants within 21 days followed by the development of interveinal chlorosis. Roots of symptomatic plants were plated on PDA with HAR and F. solani f. sp. glycines was recovered. Identification of the fungal cultures was further confirmed as F. solani f. sp. glycines by a real-time quantitative polymerase chain reaction (qPCR) assay described by Gao et al. (2). During 2005, SDS symptoms were also reported in early planted soybeans from Jefferson and Seward counties and the presence of SDS was confirmed by qPCR. The confirmation of SDS at multiple locations suggests that the pathogen is widely distributed in the eastern one-third of Nebraska. SDS could be a serious threat to soybean production in this area since spring weather conditions favor SDS infection and many producers plant soybean early in cool soils. References: (1) T. Akoi et al. Mycologia 95:660, 2003. (2) X. Gao et al. Plant Dis. 88:1372, 2004. (3) K. W. Roy et al. Plant Dis. 81:259, 1997.

2004年8月期间，在内布拉斯加州东部的内马哈县和皮尔斯县观察到大豆（Glycine max (L.) Merr.）植株出现由大豆尖镰孢菌（Fusarium solani (Mart.) Sacc. f. sp. glycines，= 拟轮枝镰孢菌Fusarium virguliforme Akoi、O'Donnell、Homma和Lattanzi）引起的猝死综合征（SDS）典型症状。叶片症状从R5 - R6生长阶段植株上的小褪绿斑点到明显的脉间坏死不等。将有症状植株的主根接种在添加了土菌灵、氨苄青霉素和利福平（HAR）的马铃薯葡萄糖琼脂（PDA）上。产生的真菌分离物生长缓慢，并形成大量蓝色大分生孢子，这是大豆尖镰孢菌f. sp. glycines的特征。将接种了分离物的高粱种子放置在易感品种斯隆的大豆种子下方1.5厘米处，种植于陶土盆中（3）。未接种的高粱种子和接种了尖孢镰孢菌的高粱种子作为对照。植株在温室中27.5 ± 2.5°C下培养32天。在21天内，在接种了大豆尖镰孢菌f. sp. glycines的植株叶片上观察到小的褪绿斑点，随后出现脉间黄化。将有症状植株的根接种在添加了HAR的PDA上，再次分离出大豆尖镰孢菌f. sp. glycines。通过高等人（2）描述的实时定量聚合酶链反应（qPCR）分析，进一步确认真菌培养物为大豆尖镰孢菌f. sp. glycines。2005年，杰斐逊县和苏厄德县早播大豆中也报告了SDS症状，并通过qPCR确认了SDS的存在。多个地点对SDS的确认表明，该病原菌在内布拉斯加州东部三分之一地区广泛分布。SDS可能对该地区的大豆生产构成严重威胁，因为春季天气条件有利于SDS感染，而且许多生产者在凉爽土壤中早播大豆。参考文献：（1）T. Akoi等人，《真菌学》95:660，2003年。（2）X. Gao等人，《植物病害》88:1372，2004年。（3）K. W. Roy等人，《植物病害》81:259，1997年。