| 不同类型Monilinia fructicola菌株的温度适应性及其对苯并咪唑类杀菌剂和乙霉威的交互抗性 |
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| 引用本文: | 陈凤平,郑钰珑,周挺,张玥,黄中乔,刘西莉. 不同类型Monilinia fructicola菌株的温度适应性及其对苯并咪唑类杀菌剂和乙霉威的交互抗性[J]. 农药学学报, 2021, 23(1): 97-106. DOI: 10.16801/j.issn.1008-7303.2021.0002 |
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| 作者姓名: | 陈凤平 郑钰珑 周挺 张玥 黄中乔 刘西莉 |
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| 作者单位: | 福建农林大学闽台作物有害生物生态防控国家重点实验室,福州 350002;中国烟草总公司福建省公司,福州 350003;中国农业大学植物病理学系,北京 100193;中国农业大学植物病理学系,北京 100193;西北农林科技大学植物病理学系,陕西杨凌 712100 |
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| 基金项目: | “十三五”国家重点研发计划项目 (2016YFD0201305);福建农林大学科技创新专项项目 (CXZX2019011G) |
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| 摘 要: | 褐腐病菌Monilinia fructicola是引起多种果树褐腐病的重要病原菌,前期研究发现该病原菌对甲基硫菌灵的抗性与Tub2蛋白的多个氨基酸变异有关.为明确不同类型菌株的温度适应性及乙霉威是否对所有抗性类型菌株均具有抑菌活性,本研究测定了敏感型菌株S及3种抗性类型包括R(E198A)、R(E198Q)及R(F20...
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| 关 键 词: | 褐腐病菌 苯并咪唑类杀菌剂 甲基硫菌灵 多菌灵 乙霉威 负交互抗性 |
| 收稿时间: | 2020-07-28 |
Temperature adaptability of different types Monilinia fructicola isolates and their cross-resistance between methyl benzimidazole carbamates and diethofencarb |
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| Affiliation: | 1.State Key Laboratory of Ecological Pest Control for Fujian and Taiwan Crops, Fujian Agriculture and Forestry University, Fuzhou 350002, China2.Institute of Tobacco Science, Fujian Provincial Tobacco Company, Fuzhou 350003, China3.Department of Plant Pathology, China Agricultural University, Beijing 100193, China4.Department of Plant Pathology, Northwest A&F University, Yangling 712100, Shaanxi Province, China |
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| Abstract: | Monilinia fructicola is an economically important pathogen, causing brown rot on many fruit trees. Previous studies revealed that the resistance in this pathogen to thiophanate-methyl was associated with multiple amino acid variations in the Tub2 protein. To understand the temperature adapatability and the activity of diethofencarb in differrent types of isolates, the sensitivities to thiophanate-methyl, carbendazim and diethofencarb were investigated in the sensitive type isolates S and three types of resistant isolates including R(E198A), R(E198Q) and R(F200Y), among which the cross-resistance of different types to MBCs and diethofencarb were analyzed. The results showed that the optimum growth temperature of the four types was ranged from 21 to 22 ℃, among which the R(E198Q) isolates had the lowest optimum growth temperature, and its growth rate was significantly smaller than the other three types under the conditions of 13 ℃ and 28 ℃. While no significant difference was observed in the growth rate of S, R(E198A) and R(F200Y) isolates under all temperature conditions. The three resistant types showed different sensitivities to thiophanate-methyl, among which the R(E198Q) type was least resistant, and the R(F200Y) type was no difference from the R(E198A) type at low concentration but significantly less resistant under high concentration of thiophanate. The difference in sensitivity of three resistant types to carbendazim was similar to that of thiophanate-methyl, only in which the R(E198Q) and R(F200Y) types were more sensitive to carbendazim than thiophanate-methyl. The sensitivity test to diethofencarb showed that the R(E198A) isolates were sensitive, and S isolates were insensitive, while the other two types of R(E198Q) and R(F200Y) showed resistance with little difference. The results of linear correlation analysis showed a significant negative correlation between the sensitivity to benzimidazole fungicides and diethofencarb only in R(E198A) type and S type, (thiophanate-methyl and diethofencarb: r =?0.992, p = 0.000; carbendazim and diethofencarb: r = ?0.982, p = 0.001). All the results mentioned above showed that only the R(E198A) type had negative cross-resistance to methyl-benzimidazole carbamates (MBCs) and diethofencarb among the three types of resistant isolates. |
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