在控制条件下对大豆种子腐败的致病力研究

IF 0.3 4区 农林科学 Q4 PLANT SCIENCES
Phytoprotection Pub Date : 2012-03-27 DOI:10.7202/1008539AR
Lai Wei, A. Xue, E. Cober, C. Babcock, Jinxiu Zhang, Zhang Shuzhen, Wenbin Li, Jun-jiang Wu, Li-jun Liu
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引用次数: 28

摘要

在世界范围内,皮霉属植物是造成大豆种子腐病(SR)和腐病(DO)的主要病原菌。在之前的一项研究中,从安大略省和魁北克省的受感染的大豆植株中分离出了一些Pythium物种,但没有检测它们对大豆的比较致病性。本研究在温室环境下,对8种霉属24株病原菌对大豆SR和DO的致病性进行了评价。还研究了温度对这些菌株引起SR的能力的影响。8个种间的SR和DO均有显著性差异。在25°C条件下,两种大豆品种的平均致病性分别为97.0%和46.4%。蛇皮霉(Pythium aphanidermatum)的致病性次之,SR为88.5%,DO为41.8%。这两个物种的SR和DO明显高于其他6个物种,被认为是高致病性的。在这些试验中使用的两个栽培品种中,“山毛榉”对SR和DO的敏感性明显高于“Nattawa”。在4℃、12℃、20℃和28℃4种温度条件下,最后一种病原菌的致病性最高,而芳香型病原菌、色散型病原菌和异索托菌的致病性最低。温度与皮孢霉的交互作用更为明显,其SR百分比随温度升高而升高,而不规则孢霉、大孢子孢霉和森林孢霉的SR百分比随温度升高而降低。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Pathogenicity of Pythium species causing seed rot and damping-off in soybean under controlled conditions
Pythium species cause seed rot (SR) and damping-off (DO) in soybean worldwide. In a previous study, a number of Pythium species were isolated from infected soybean plants across Ontario and Quebec, but their comparative pathogenicities to soybean were not examined. In the present research, 24 isolates from eight Pythium spp. were evaluated for their pathogenicity in causing soybean SR and DO in a greenhouse environment. The effect of temperature on the ability of these isolates to cause SR was also studied. There were significant differences among the eight Pythium spp. for both SR and DO. When tested at 25°C, Pythium ultimum was the most pathogenic species, causing 97.0% SR and 46.4% DO, on average, in the two soybean cultivars used. Pythium aphanidermatum was the second most pathogenic species, resulting in 88.5% SR and 41.8% DO. The two species resulted in significantly greater SR and DO than the other six species tested and were considered highly pathogenic. Of the two cultivars used in these trials, ‘Beechwood’ was significantly more susceptible than ‘Nattawa’ to both SR and DO. Temperature had a significant influence on SR caused by Pythium spp. At all four temperatures tested (4°C, 12°C, 20°C and 28°C), P. ultimum was highly pathogenic, while P. arrenomanes, P. coloratum and P. dissotocum were the least pathogenic. The interactions between temperature and Pythium spp. were more pronounced for P. aphanidermatum, which showed an increased percentage of SR with an increase in temperature, and for P. irregulare, P. macrosporum and P. sylvaticum, which showed a decreased percentage of SR with an increase in temperature.
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来源期刊
Phytoprotection
Phytoprotection 生物-植物科学
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