Identification of sources of resistance to damping-off (Rhizoctonia solani) in two phenological phases of watermelon

F. D. S. Cunha, A. F. D. Costa, A. S. Capucho, R. C. S. Dias, F. H. Ishikawa
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引用次数: 4

Abstract

Sources of resistance to damping-off caused by Rhizoctonia solani were researched in watermelon accessions, in which thirty accessions were inoculated in two phenological phases (at seeding and seedling stages). The completely randomized design with five replications per accession was used in both phenological stages. The inoculation in seeding stage was carried out at the time of sowing, while for seedling the inoculation was done 15 days after sowing. In both stages the evaluation occurred 15 days after inoculation using a rating scale. At seeding stage, six accessions were moderately resistant to CMM-2967 of R. solani. However, no accession resistant to CMM-1053 and CMM-1052 isolates was recognized. Three accessions were resistant to CMM-1053 at the seedling stage. Posteriorly, inoculation was carried out using only accessions classified as resistant in the previous evaluations using both phenological stages. For CMM-1053, factorial scheme of 2x4 were used (two stages and four accessions). For assessments against isolate CMM-2967 a factorial scheme of 2x12 (two stages and 12 accessions) was used. We confirmed the results of first two experiments for both isolates. At seeding stage, all accessions were classified as susceptible to CMM-1053. However, at the seedling stage, only Crimson Swett was susceptible. For the CMM-2967, inoculated at the seeding stage, the accessions were classified into two groups (resistant and susceptible) (Scott-Knott at 5%). At seedling stage there was no statistical difference among eleven accessions and they were all classified as resistant. Due to difficulty of finding sources of resistance to damping off, the method of inoculation at seedling stage showed more efficient for this pathosystem and could facilitate the work of breeders and plant pathologists.
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西瓜两个物候期抗枯萎病来源的鉴定
以西瓜为材料,在苗期和苗期两个物候期分别接种30份西瓜材料,研究了西瓜对茄枯核菌的抗性来源。两个物候阶段均采用完全随机设计,每次加入5个重复。播期接种在播种时进行,苗期接种在播种后15 d进行。在接种后15天使用评定量表对这两个阶段进行评估。在苗期,6份材料对茄蚜CMM-2967有中等抗性。但未发现对CMM-1053和CMM-1052具有抗性的菌株。3份材料在苗期对CMM-1053有抗性。之后,接种只使用在先前的两个物候阶段评估中被分类为抗性的材料进行。对于CMM-1053,采用2x4的析因方案(两期四份)。对分离株CMM-2967的评价采用2 × 12(2期12株)的析因方案。我们证实了前两次实验的结果。在播期,所有材料均被分类为CMM-1053敏感。然而,在苗期,只有Crimson Swett易感。在播种期接种CMM-2967,将材料分为抗性和敏感两组(Scott-Knott组5%)。苗期11份材料间差异无统计学意义,均为抗性品种。由于抗性来源难以找到,苗期接种的方法对该病害更为有效,可以方便育种家和植物病理学家的工作。
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