Vargas M, Loyola C, Zapata N, Rivera V, Secor G, Bolton M, France A
Facultad de Agronomía, Universidad de Concepción, Chillán, Chile.
North Dakota State University, Fargo 58108.
Plant Dis. 2012 Apr;96(4):591. doi: 10.1094/PDIS-03-11-0245.
Chicory (Cichorium intybus L. var sativum Bisch.), a relatively new high-value crop in Chile, was introduced for commercial production of inulin. Inulins are polysaccharides extracted from chicory tap roots that are used in processed foods because of their beneficial gastrointestinal properties. Approximately 3,000 ha of chicory are grown for local processing in the BioBio Region near Chillan in south central Chile. Recently, a severe rot of 1 to 3% of mature roots in the field and after harvest has been observed in most fields, which caused yield and quality losses. Typical symptoms include a brown discoloration and a soft, watery decay of the root. Tissue pieces from symptomatic roots were placed on water agar and clarified V8 juice agar medium amended with antibiotics (1) for isolation of the causal pathogen. A Phytopthora sp. had been consistently isolated from root lesions, and axenic cultures were obtained using single-hypha transfers. The species was provisionally identified as Phytopthora cryptogea (Pethybridge and Lafferty, 1919) on the basis of morphological and cultural characteristics (1). Mycelia grew between 5 and 30°C with optimal growth at 20 to 25°C and no growth at 35°C. All isolates produced hyphal swellings and nonpapillate, persistent, internally proliferating, and ovoid to obpyriform sporangia with mean dimensions of 45 × 31 μm in sterile soil extract. The isolates were of A1 mating type because they produced oospores only when paired with reference isolates of P. cinnamomi A2 on clarified V8 juice agar amended with thiamine, tryptophan, and β-sitosterol (1) after 20 days at 20°C in the dark. On the basis of morphological and sequence data from cytochrome c oxidase subunit 1 and 2, internal transcribed spacer 2, and β-tubulin (GenBank Accession Nos. JQ037796 to JQ037798, respectively), the pathogen was identified as P. cryptogea. Pathogenicity tests were conducted using three isolates of P. cryptogea by placing a 7-mm-diameter disk from a 1-week-old V8 agar culture on 10 wounded and nonwounded healthy chicory roots (2). Control roots were mock inoculated with agar plugs. The inoculated roots were incubated at 20°C in a moist chamber. Root rot symptoms, identical to those observed both in field and storage, developed after 4 to 6 days only on wounded sites inoculated with the pathogen, and P. cryptogea was reisolated from these inoculated plants. Mock-inoculated roots remained healthy. This experiment was completed twice and similar results were obtained. To our knowledge, this is the first report of Phytophthora root rot of chicory caused by P. cryptogea in Chile. References: (1) D. C. Erwin and O. K. Ribeiro. Phytophthora Diseases Worldwide. The American Phytopathological Society, St. Paul, MN, 1996. (2) M. E. Stanghellini and W. C. Kronland. Plant Dis. 66:262, 1982.
菊苣(Cichorium intybus L. var sativum Bisch.)是智利一种相对较新的高价值作物,被引入用于菊粉的商业化生产。菊粉是从菊苣主根中提取的多糖,因其对胃肠道有益的特性而被用于加工食品中。智利中南部奇廉附近的比奥比奥地区约有3000公顷菊苣用于当地加工。最近,在大多数田地中都观察到田间和收获后1%至3%的成熟根出现严重腐烂,这导致了产量和品质损失。典型症状包括根部褐色变色以及根部柔软、似水浸状腐烂。将有症状根部的组织块置于水琼脂和添加抗生素的澄清V8汁琼脂培养基上(1),以分离致病病原体。一种疫霉属真菌一直从根部病斑中分离出来,并通过单菌丝转移获得了无菌培养物。根据形态和培养特征(1),该菌种被暂定为隐地疫霉(Phytopthora cryptogea (Pethybridge and Lafferty, 1919))。菌丝体在5至30°C之间生长,最适生长温度为20至25°C,35°C时不生长。所有分离物在无菌土壤提取物中产生菌丝膨大和无乳突、持久、内部增殖且卵形至倒梨形的孢子囊,平均尺寸为45×31μm。这些分离物为A1交配型,因为只有在黑暗中于20°C培养20天后,在添加硫胺素、色氨酸和β-谷甾醇的澄清V8汁琼脂上与樟疫霉A2的参考分离物配对时,它们才产生卵孢子(1)。根据细胞色素c氧化酶亚基1和2、内部转录间隔区2以及β-微管蛋白的形态和序列数据(GenBank登录号分别为JQ037796至JQ037798),该病原体被鉴定为隐地疫霉。使用三种隐地疫霉分离物进行致病性测试,方法是将来自1周龄V8琼脂培养物的直径7毫米的菌盘放置在10个受伤和未受伤的健康菊苣根上(2)。对照根用琼脂块进行模拟接种。接种后的根在20°C的湿润培养箱中培养。仅在接种病原体的受伤部位,4至6天后出现了与田间和储存中观察到的相同的根腐症状,并且从这些接种植物中再次分离出了隐地疫霉。模拟接种的根保持健康。该实验重复进行了两次,获得了相似的结果。据我们所知,这是智利首次关于由隐地疫霉引起的菊苣疫霉根腐病的报道。参考文献:(1)D. C. Erwin和O. K. Ribeiro。《世界疫霉病》。美国植物病理学会,明尼苏达州圣保罗,1996年。(2)M. E. Stanghellini和W. C. Kronland。《植物病害》66:262,1982年。
