Khangura R, MacLeod W J
Department of Agriculture and Food, Western Australia, Locked bag 4, Bentley Delivery Centre, Bentley 6983, Western Australia.
Plant Dis. 2013 Dec;97(12):1660. doi: 10.1094/PDIS-05-13-0559-PDN.
Canola (Brassica napus L.) is a significant oilseed break crop in Western Australia. In late October 2012, canola plants (cv. Jackpot) showing typical symptoms of stem rot with bleached appearance and fluffy white fungal growth on the infected tissues were observed in an experimental plot at Katanning, Western Australia. Severely affected plants were lodged with partially filled pods and shriveled seeds. Small, irregular sclerotia (<2 mm) were found inside the plants and were more concentrated in the root and basal stem than in the upper stem regions. Ten sclerotia from three symptomatic plants were surface sterilized with 1.25% NaOCl for 1 minute, rinsed twice in sterile distilled water and plated on potato dextrose agar (PDA) supplemented with 10 mg liter Aureomycin. Plates were incubated under a black light at 22 ± 2°C. Sclerotinia minor Jagger was consistently isolated as identified by colony morphology, abundant sclerotia on PDA, and size of sclerotia <2 mm (3). A pathogenicity test was conducted on six 7-week-old canola plants cv. Tawriffic. Mycelial plugs (5 mm diameter) were excised from the margins of actively growing 3-day-old cultures and attached on to the 2nd and the 4th internodes of the main stem with Parafilm. Three plants inoculated with agar plugs without mycelium served as controls. Following inoculation, the plants were kept in a misting chamber for 48 h and then transferred to a growth room at 18 ± 2°C with a 12-h photoperiod. Typical lesions of stem rot similar to those observed in the field were noticed 3 days after inoculation. Within a week, all the inoculated plants were completely girdled by the lesions with stems breaking off and collapsing at the point of inoculation. Small sclerotia formed within lesions on the outside of the diseased stems. S. minor was reisolated from the stems of symptomatic plants, fulfilling Koch's postulates. No symptoms developed on the control plants. S. minor has previously been reported on host plants other than canola in Western Australia (4), canola petals in New South Wales, Australia (2), and also on canola stems in Argentina (1). To our knowledge, this is the first report of occurrence of S. minor on canola in Western Australia. Although S. sclerotiorum is the predominant species causing stem rot in canola in Western Australia, S. minor has the potential to cause significant yield losses under favorable environmental conditions. Correct identification and monitoring a shift in pathogens is essential for implementing effective management strategies and breeding resistant varieties. References: (1) S. A. Gaetán et al. Plant Dis. 92:172, 2008. (2) T. Hind-Lanoiselet et al. Aust Plant Pathol. 30:289, 2001. (3) L. M. Kohn. Phytopathology 69:881, 1979. (4) R. Shivas. J. Royal. Soc. Western Australia 72:1, 1989.
油菜(甘蓝型油菜)是西澳大利亚一种重要的油料作物轮作品种。2012年10月下旬,在西澳大利亚卡坦宁的一个试验田中,观察到油菜植株(品种为Jackpot)出现典型的茎腐病症状,受感染组织呈现漂白外观并有蓬松的白色真菌生长。严重受影响的植株倒伏,豆荚部分饱满,种子干瘪。在植株内部发现了小的、不规则的菌核(<2毫米),且在根部和基部茎中比上部茎区域更为集中。从三株有症状的植株上选取10个菌核,用1.25%的次氯酸钠进行表面消毒1分钟,在无菌蒸馏水中冲洗两次,然后接种到添加了10毫克/升金霉素的马铃薯葡萄糖琼脂(PDA)平板上。平板在22±2°C的黑光下培养。通过菌落形态、PDA上丰富的菌核以及菌核大小<2毫米(3),一致鉴定分离出小核盘菌。对六株7周龄的油菜品种Tawriffic进行了致病性测试。从活跃生长3天的培养物边缘切下直径5毫米的菌丝块,用封口膜贴在主茎的第二和第四节间。三株接种无菌丝琼脂块的植株作为对照。接种后,植株在喷雾室中放置48小时,然后转移到18±2°C、光周期为12小时的生长室中。接种3天后,观察到与田间观察到的类似的典型茎腐病病斑。一周内,所有接种的植株都被病斑完全环绕,茎在接种点处折断并倒伏。在患病茎外部的病斑内形成了小菌核。从小核盘菌从有症状植株的茎中重新分离出来,满足科赫法则。对照植株未出现症状。此前在西澳大利亚,小核盘菌已在油菜以外的寄主植物上被报道(4),在澳大利亚新南威尔士州的油菜花瓣上被报道(2),在阿根廷的油菜茎上也有报道(1)。据我们所知,这是西澳大利亚油菜上首次报道小核盘菌的发生。虽然核盘菌是西澳大利亚油菜茎腐病的主要病原菌,但在有利的环境条件下,小核盘菌有可能导致显著的产量损失。正确识别和监测病原菌的变化对于实施有效的管理策略和培育抗病品种至关重要。参考文献:(1)S. A. Gaetán等人,《植物病害》92:172,2008年。(2)T. Hind-Lanoiselet等人,《澳大利亚植物病理学》30:289,2001年。(3)L. M. Kohn,《植物病理学》69:881,1979年。(4)R. Shivas,《西澳大利亚皇家学会杂志》72:1,1989年。
