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1.
植物病原真菌对甲基立枯磷的抗药性及风险研究 总被引:5,自引:2,他引:3
通过对人工获得的抗甲基立枯磷菌株的抗药水平、在培养基上的生长速度、致病力、对其它杀菌剂的敏感性测定以及对菌核的观察和用药条件等方面分析, 在实验室内进行了植物病原真菌对甲基立枯磷的抗药性风险研究。结果显示, 不同的病原菌具有不同的抗药性。抗甲基立枯磷的水稻纹枯病菌菌株对甲基立枯磷的抗药性较强、抗药性风险大; 小麦纹枯病菌和油菜菌核病菌抗药菌株抗药性较弱、风险小。抗甲基立枯磷的水稻纹枯病菌对菌核净具有高水平正交互抗性; 抗甲基立枯磷的小麦纹枯病菌对菌核净和扑海因有中等程度正交互抗性; 这两种真菌的抗药菌株对五氯硝基苯的正交互抗性弱, 对烯唑醇和异稻瘟净没有交互抗性。甲基立枯磷与二甲酰亚氨类和芳烃类杀菌剂具有相似的抑菌作用。 相似文献
2.
恶苗病是水稻生产上较为严重的种传真菌病害,咪唑类广谱内吸性杀菌剂咪鲜胺是目前防治该病害的主要药剂。以对咪鲜胺抗性及敏感的田间水稻恶苗病菌为试材,研究了其适合度及对几种常用杀菌剂的交互抗性。结果显示:抗性菌株的抗药性可稳定遗传,其温度敏感性与敏感菌株无明显差异,部分抗性菌株在菌丝生长速率、产孢量、孢子萌发率和致病力方面显著高于田间敏感菌株;咪鲜胺与三唑类及2-氰基丙烯酸酯类杀菌剂之间均无交互抗性。研究表明,对咪鲜胺产生抗性的水稻恶苗病菌具有较强的适合度,在田间自然条件下有可能形成优势群体,因此需合理轮换使用不同作用机制的杀菌剂,以延缓其抗药性的发展。 相似文献
3.
马铃薯晚疫病菌对烯酰吗啉的敏感性基线及其室内抗药突变体的研究 总被引:13,自引:0,他引:13
2003-2004年在内蒙古和黑龙江省共分离获得100株马铃薯晚疫病菌,并测定了这些菌株对烯酰吗啉和甲霜灵的敏感性。结果表明,不同地区、不同年份的马铃薯晚疫病菌对烯酰吗啉的敏感性无显著差异,其敏感性呈连续的单峰曲线分布,EC50在0.0631-0.2206μg/mL之间,最不敏感菌株是最敏感菌株的3.1倍,平均为(0.1153±0.0308)μg/mL,未出现敏感性下降的抗药性亚群体,因此可作为马铃薯晚疫病菌对烯酰吗啉的敏感性基线;64%的供试菌株对甲霜灵的敏感性下降,甲霜灵与烯酰吗啉之间不存在交互抗药性。采用紫外线诱变菌丝的方法仅从3个菌株中的1个菌株获得了3%突变频率的抗烯酰吗啉突变体,抗性倍数为1.5-1.9,没有获得高抗药水平的突变体。这些突变体与氟吗啉之间具有正交互抗药性,而与霜脲氰或嘧菌酯之间无交互抗药性;与野生亲本菌株相比,抗药突变体的生长速率和产孢子囊能力显著下降,不利于抗药群体的发展。但由于马铃薯晚疫病菌被杀菌剂抗性行动委员会认为是高抗药性风险病原菌,建议生产上应将烯酰吗啉与其它无交互抗性的药剂交替使用或混合使用,以避免或延缓抗药性的产生。 相似文献
4.
采用离体叶盘法和活体植株法,测定了从田间分离获得的对氟吗啉具有抗药性的黄瓜霜霉病菌菌株和通过室内紫外线诱变获得的对氟吗啉及对照药剂烯酰吗啉和嘧菌酯产生抗药性的突变菌株的生存适合度。试验结果表明,室内诱导获得的氟吗啉和烯酰吗啉抗药性突变菌株的适合度明显低于敏感菌株和嘧菌酯抗药性突变体及田产氟吗啉抗药性菌株,主要表现在菌株的侵染率、产孢能力和致病力的减弱。室内获得的氟吗啉和烯酰吗啉抗药性突变体和敏感菌株混合接种、继代培养后,其抗药菌株的检出率在混合群体中逐渐降低,其中抗性突变体FR4和敏感菌株以2:8的比例混合接种、培养7代后,其无性后代中检测不到抗药性菌株的存在,表明室内氟吗啉抗药性突变体竞争力弱于敏感菌株;而田间氟吗啉抗药性菌株和室内嘧菌酯抗药性突变体则表现出和敏感菌株相似或更强的竞争力,预示田间自然情况下抗药性菌株存在着可能形成优势菌群而导致药剂防治失败的潜在风险。 相似文献
5.
柑桔溃疡病菌抗药突变体的生理特性研究 总被引:3,自引:0,他引:3
经药剂驯化和紫外光诱导双重作用可获得柑桔溃疡病菌抗拌种灵突变体(XcR),病原菌抗药突变频率低于10-6。Xc R的生长速率与敏感菌株基本一致,对萎锈灵和叶枯唑具有潜在的正交互抗性,与浸种灵没有交互抗性。XcR胞外产物和胞外水解酶活性一般多于或高于敏感菌株,其中以淀粉酶活性变化最为明显。Xc R琥珀酸脱氢酶活性显著降低,并对拌种灵的敏感性亦降低。XcR能够引起烟草的过敏性反应,但失去对寄主的致病性。Xc R的性质表明,柑桔溃疡病菌对拌种灵产生抗药性的风险较低,病原菌获得抗药性状的同时可能导致其在田间的适合度下降。琥珀酸脱氢酶的活性可作为柑桔溃疡病菌抗药性的标记。 相似文献
6.
葡萄霜霉病菌对甲霜灵抗药性治理及其田间抗药菌株遗传稳定性分析 总被引:6,自引:0,他引:6
为了明确葡萄霜霉病菌对甲霜灵的田间抗药性水平发展态势,于轮换用药前后,采用叶盘漂浮法测定了河北、山西、河南3省葡萄主要种植区11个葡萄园试验地葡萄霜霉病菌对甲霜灵敏感性变化动态。结果表明:田间采集的葡萄霜霉病菌对甲霜灵抗药的菌株其抗药性可以稳定遗传;不同地区轮换用药后,葡萄霜霉病菌对甲霜灵的抗药水平变化态势因用药流程的不同而发生相应的变化。采用不同作用机制的杀菌剂轮换或混合用药进行葡萄霜霉病菌对甲霜灵的抗药性治理时,需制定合理的施药流程,并根据抗药性治理的效果不断完善治理措施。 相似文献
7.
水稻稻瘟病菌对烯肟菌胺的抗性风险评估及抗性机制初探 总被引:2,自引:0,他引:2
采用菌丝生长速率法测定了100株采自我国主要水稻产区的水稻稻瘟病菌对烯肟菌胺的敏感性, 结果表明, 其EC50分布于0.011 1~0.295 6 μg·mL-1, 平均EC50=(0.078 6±0.056 1) μg·mL-1。供试菌株对烯肟菌胺的敏感性分布呈单侧峰曲线, 未出现抗药性亚群体, 可将该曲线作为稻病瘟菌对烯肟菌胺的敏感性基线。通过室内药剂驯化获得了7株抗药突变体, 突变频率为1.11×10-4, 其中2株高抗突变体NJ0811-I和A10的抗性水平大于1 000倍, 抗药性性状能稳定遗传, 致病力显著弱于其亲本菌株;5株低抗突变体抗性水平在2.05~4.55倍之间, 抗药稳定性差, 适合度与亲本无显著性差异。交互抗药性结果表明, 烯肟菌胺与嘧菌酯存在正交互抗药性, 与田间防治稻瘟病常用药剂稻瘟灵、异稻瘟净无交互抗药性。综合分析表明, 稻瘟病菌对烯肟菌胺可能存在低到中等抗性风险。进一步克隆了抗药突变体及其亲本的cytb基因, CYTB氨基酸序列比对结果表明, 2株高抗突变体均在143位由甘氨酸突变为丝氨酸(G143S), 建立了高抗菌株的AS-PCR分子检测方法;而5株低抗突变体cytb基因未发生点突变, 推测可能存在其他的抗性分子机制。 相似文献
8.
黄瓜白粉病菌对苯醚菌酯敏感基线的建立及室内抗药性风险评价 总被引:1,自引:0,他引:1
采用叶碟保湿培养法测定了59株黄瓜白粉病菌对苯醚菌酯的敏感性, 并建立了敏感基线。结果表明:苯醚菌酯对59个菌株的平均EC50为(0.0105±0.0028)μg/mL, 其敏感性频率分布呈连续性单峰曲线, 没有出现敏感性下降的抗药性亚群体。因此, 该敏感基线可以作为监测田间病原菌对苯醚菌酯敏感性变化的参考。室内采用药剂驯化得到4株抗药性突变体, 其抗性指数均高于150, 且抗药性状能够稳定遗传。室内抗药性风险评价显示, 4株抗药性突变体在致病力、竞争力上与亲本菌株相比无明显差异或优于亲本菌株。综合分析表明, 黄瓜白粉病菌对苯醚菌酯具有较高的室内抗药性风险。因此, 在该药的使用过程中应当采取相应的抗性治理措施。 相似文献
9.
为明确中国华北地区瓜类尖孢镰刀菌Fusarium oxysporum Schl.对咪鲜胺的抗药性现状及抗药突变株的生物学性状,采用菌丝生长速率法,分别测定了采自北京、山东、河北等地未使用过咪鲜胺的112株瓜类尖孢镰刀菌对咪鲜胺的敏感性,并通过药剂驯化的方法获得尖孢镰刀菌抗咪鲜胺突变株。结果表明:咪鲜胺对112株瓜类尖孢镰刀菌的平均EC50值为(0.030 1±0.030 4)μg/mL,菌株频率呈连续单峰曲线分布,未发现敏感性明显下降的亚群体,因此,可将该EC50值作为瓜类尖孢镰刀菌对咪鲜胺的敏感基线。药剂驯化共获得7株抗咪鲜胺突变株,其抗性倍数介于6.2~26.8之间;突变株在菌丝生长速率、菌丝干重和致病力等方面均明显低于亲本菌株,差异显著;仅突变株HG13052701-R1的抗药性可以稳定遗传,其他6株抗咪鲜胺突变株的抗药性均不能稳定遗传。室内交互抗性测定结果表明,咪鲜胺仅与戊唑醇之间有交互抗性,与多菌灵和齅霉灵之间均无交互抗性关系。研究表明,瓜类尖孢镰刀菌在药剂选择压下可以形成抗咪鲜胺群体,具有低等抗药性风险。 相似文献
10.
植物病原菌抗药性及其抗性治理策略 总被引:1,自引:0,他引:1
随着现代高活性的选择性杀菌剂的研发和广泛使用,病原菌的抗药性问题日趋严重,这已成为植物病害化学保护领域最受关注的问题之一。本文阐释了抗药性相关术语的定义,概述了病原菌的抗药性现状,并从自然选择和诱导突变两种学说的角度分析了抗药性产生的原因。进一步分析了抗药性群体流行与病原菌自身特点、杀菌剂类型和作用机制等影响因子密切相关,综述了抗药性风险评估、抗药性机制、抗药性进化以及抗药性常规和分子检测方法等内容。最后,提出了抗药性治理的目标和策略,即根据抗药病原群体形成的主要影响因素,针对性地设计抗药性治理短期和长期策略,特别是需进一步加强对新药剂和新防治对象开展抗药性风险评估、制定抗药性管理策略、建立再评价机制等。综上,明确植物病原菌抗药性发生发展特点并制定科学合理的抗性治理策略,对进一步开展植物病害的科学防控具有重要的参考价值。 相似文献
11.
Dale R. Walters Anna Avrova Ian J. Bingham Fiona J. Burnett James Fountaine Neil D. Havis Stephen P. Hoad Gareth Hughes Mark Looseley Simon J. P. Oxley Alan Renwick Cairistiona F. E. Topp Adrian C. Newton 《European journal of plant pathology / European Foundation for Plant Pathology》2012,133(1):33-73
Barley is one of the world??s most important crops providing food and related products for millions of people. Diseases continue to pose a serious threat to barley production, despite the use of fungicides and resistant varieties, highlighting the impact of fungicide resistance and the breakdown of host plant resistance on the efficacy of control measures. This paper reviews progress towards an integrated approach for disease management in barley in which new methods may be combined with existing measures to improve the efficacy of control in the long-term. Advances have been made in genetic mapping of resistance (R) genes and in identifying novel sources of genes in wild barley populations and land races. Marker assisted selection techniques are being used to pyramid R genes to increase the durability of resistance. Elicitors to induce host resistance used in combination with fungicides can provide effective disease control in the field and could delay the evolution of fungicide insensitivity. Traits that may contribute to disease tolerance and escape have been identified and the extent of genetic variation within barley germplasm is being determined. Tools are being developed to integrate the above methods via an assessment of the risk of economic injury occurring from disease to guide decisions on the requirement for fungicide treatment. Barriers exist to the adoption of integrated management approaches from growers and end-users further down the supply chain (e.g. acceptance of variety mixtures) and policy incentives from government may be required for it to be taken up in practice. 相似文献
12.
Adriano Francis Dorigan Silvino Intra Moreira Sarah da Silva Costa Guimarães Valter Cruz-Magalhães Eduardo Alves 《Pest management science》2023,79(12):4731-4753
Fungicides are indispensable for high-quality crops, but the rapid emergence and evolution of fungicide resistance have become the most important issues in modern agriculture. Hence, the sustainability and profitability of agricultural production have been challenged due to the limited number of fungicide chemical classes. Resistance to site-specific fungicides has principally been linked to target and non-target site mechanisms. These mechanisms change the structure or expression level, affecting fungicide efficacy and resulting in different and varying resistance levels. This review provides background information about fungicide resistance mechanisms and their implications for developing anti-resistance strategies in plant pathogens. Here, our purpose was to review changes at the target and non-target sites of quinone outside inhibitor (QoI) fungicides, methyl-benzimidazole carbamate (MBC) fungicides, demethylation inhibitor (DMI) fungicides, and succinate dehydrogenase inhibitor (SDHI) fungicides and to evaluate if they may also be associated with a fitness cost on crop pathogen populations. The current knowledge suggests that understanding fungicide resistance mechanisms can facilitate resistance monitoring and assist in developing anti-resistance strategies and new fungicide molecules to help solve this issue. © 2023 Society of Chemical Industry. 相似文献
13.
J. Dekker 《European journal of plant pathology / European Foundation for Plant Pathology》1977,83(1):159
Mutation to resistance is more likely to occur to systemic fungicides than to conventional fungicides. The possibilities to obtain systemic fungicides, to which fungi will not readily become resistant, are discussed. A high potential for development of fungicide resistance does, however, not always imply that problems will arise in practice. If fungicide resistance is accompanied with reduced pathogenicity and fitness, the build-up of a resistant population will be hampered or prevented. Of importance are also the type of disease and the selection pressure exerted by the fungicide. The latter may be influenced by the management of fungicide application. 相似文献
14.
QoI fungicides, inhibitors of mitochondrial respiration at the Qo site of cytochrome b in the mitochondrial bc(1) enzyme complex, are commonly applied in vineyards against Plasmopara viticola (Berk. & MA Curtis) Berl. & De Toni. Numerous treatments per year with QoI fungicides can lead to the selection of resistant strains in the pathogen population owing to the very specific and efficient mode of action. In order to evaluate the resistance risk and its development, two different methods, biological and molecular, were applied to measure the sensitivity of oospores differentiated in vineyards, both treated and untreated with azoxystrobin, from 2000 to 2004. Assays using oospores have the advantage of analysing the sensitivity of bulked samples randomly collected in vineyards, describing accurately the status of resistance at the end of the grapevine growing season. Both methods correlated well in describing the resistance situation in vineyards. QoI resistance was not observed in one vineyard never treated with QoI fungicides. In the vineyard where azoxystrobin had been used in mixture with folpet, the selection of QoI-resistant strains was lower, compared with using solely QoI. In vineyards where QoI treatments have been stopped, a decrease in resistance was generally observed. 相似文献
15.
Resistance to QoI fungicides (strobilurins, famoxadone and fenamidone) in populations of Plasmopara viticola (Berk & Curt) Berlese & de Toni developed soon after their introduction in France and Italy. Current resistance management strategies include limitation of the number of applications, use of mixtures and alternation of fungicides with different modes of action. The selection pressure resulting from QoI fungicides applied alone or in mixtures with non-QoI fungicides was investigated in whole plant experiments under controlled conditions. QoI-resistant populations of P. viticola gradually reverted to full sensitivity following consecutive transfers to untreated plants, suggesting that resistant phenotypes were less competitive than sensitive ones. When cycled on QoI-treated plants, reduction in sensitivity was greater for the QoI fungicide which had greater intrinsic activity on P. viticola. Sensitivity decreased at each subsequent cycle, resulting in almost full resistance after four generations. Mixture experiments indicated that selection pressure was affected most by the dose of the QoI fungicide and the nature of the partner fungicide. Folpet delayed selection pressure most effectively when it was associated with famoxadone or azoxystrobin. Mancozeb was least effective at reducing the rate of selection compared with the QoI alone, and fosetyl-aluminium was intermediate. Higher rates of selection were recorded when the dose of the QoI fungicide, solo or in a mixture, was increased from 1 to 4 microg ml(-1). Increasing the dose of the non-QoI partner fungicide in the mixture from 10 to 30 microg ml(-1) resulted in reduced selection pressure. These results suggest that the choice of the fungicide partner and its dosage in the mixture can significantly affect the success of QoI resistance management strategies under practical conditions. 相似文献
16.
杀菌剂毒力是化合物具有开发和应用价值的固有生物学性状,不仅是农药登记部门予以注册登记的前置条件,而且也是反映杀菌剂生物活性及其安全性和有效性的关键技术参数。本文明确了杀菌剂毒力术语的定义,强调了杀菌剂可能的未知作用方式及通过与病原菌、寄主和环境因子相互作用的病害及流行防控效力在杀菌剂毒力评价中的重要性。深入分析了化合物与受体蛋白相互作用的结构特异性和精确性及干扰靶标蛋白功能的毒理学机制,揭示了杀菌剂毒力的选择性原理。综述了杀菌剂毒力生物测定及其结果分析方法,分析了可能影响毒力测定结果评价的常见因素。本文所述内容可为从事农药创制、加工、应用、毒理与抗性及分子互作科研工作者提供参考。 相似文献
17.
新型杀菌剂的创制在农业可持续发展和克服抗药性中具有重要作用。由于杀菌剂作用机制或靶标是新杀菌剂分子设计合成和创制开发的重要基础,因此作用机制或靶标研究的滞后会阻碍新先导化合物的发现或新品种的创制。鉴于此,本文对目前杀菌剂作用靶标的识别及靶向杀菌剂的分子设计进行了概述。首先阐述了基于转录组学、蛋白质组学的研究和药物亲和层析技术在靶标识别中的应用;其次概述了多学科交叉的方法在分子靶标验证中的应用;最后以strobilurin A为先导的Qo位点抑制剂、以肉桂酸为先导的卵菌抑制剂、以萎锈灵为先导的琥珀酸脱氢酶和植物免疫激活剂等不同类型的靶向杀菌剂为例进行了举例说明。 相似文献
18.
Ten trials were established in the 1986 vintage year on vineyards in three vine-growing districts of New Zealand, to examine changes in the frequency of resistance to dicarboximide fungicides of the Botrytis cinerea population under different fungicide programmes. The vineyards chosen encompassed sites with pre-season resistance frequencies ranging from 0 to 97%. Under a non-dicarboximide programme, using dichlofluanid and chlorothalonil, resistance frequency had decreased at harvest irrespective of the initial frequency. In programmes incorporating dicarboximides (chlozolinate, iprodione, procymidone, vinclozolin), the resistance frequency tended to increase if pre-season resistance frequency was low, and decrease if it was high. The hypothesis is presented that for a given dicarboximide programme, resistance frequency tended to one value, the balance value, where selection for resistant strains due to fungicide application balanced selection against the resistant strains due to their low fitness. This value was estimated for the 1986 vintage year to be 38% for a programme where application of dicarboximides was restricted to the period from the veraison (sugar rise), and 64% where dicarboximides were applied from the pre-bunch closure phase. Actual values observed at harvest 1987, after these same programmes had been applied for two consecutive years, were 39% (S.E. 8-5%) and 68% (S.E. 8-8%), respectively. 相似文献
19.
Samira Santiago Librelon Fernanda Aparecida Castro Pereira Paula Furtado de Pádua Nathália Bottrel Maia Pereira Luanna de Barros Wanderley Gomes Rafael Pereira Lucas Fidelis Pereira Edson Ampélio Pozza Elaine Aparecida de Souza 《Plant pathology》2022,71(6):1431-1439
Angular leaf spot (ALS), an important disease of common bean (Phaseolus vulgaris), is caused by the fungus Pseudocercospora griseola. This pathogen has a wide genetic variability and, therefore, poses a challenge to integrated disease management. The use of resistant cultivars is difficult; hence, the application of fungicides has been a common practice in common bean cultivation. P. griseola strains were morphophysiologically characterized and their sensitivity to common fungicides used to control ALS was studied. The strains were evaluated for sporulation capacity and a representative sample of 34 strains was bioassayed to determine their sensitivity to commercial concentrations of five fungicides, namely pyraclostrobin, mancozeb, pyraclostrobin + metconazole, chlorothalonil and tebuconazole. Another sample of 29 strains was studied for conidial germination and dimensions. Sporulation capacity ranged from 0.88 to 27.67 × 104 conidia/ml and germination percentage ranged from 39% to 72%. The large differences among strains suggest a wide genetic variability among the strains. A wide variability in aggressiveness of P. griseola was observed, which has consequences for breeding programmes aimed at resistance. The behaviour of pathogen strains differed in every fungicide evaluated, even in a population that has not been under selection pressure in the field. These results confirm the need for further studies and may guide future research with this pathogen. 相似文献