冬小麦播前处理制剂杀真菌活性的比较评价

N. Sidorov, E. Gyrnets, M. M. Astakhov, K. Saenko, A. Asaturova, A.O. Didenko
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引用次数: 0

摘要

单组分杀菌剂的大量使用导致了植物病原体耐药形式的出现。开发多组分植保产品是解决这一问题的途径之一。本研究的目的是确定多组分化学敷料在体外抑制最常见的真菌病原体和种子感染方面的有效性。这项工作于2020年在联邦生物植物保护研究中心(克拉斯诺达尔)的微生物植物保护产品创建实验室和微生物集合中进行。以镰刀菌属、Microdochium属、Bipolaris属、Alternaria属、青霉菌属、Rhizoctonia属、Septoria属、Pyrenophora属真菌为试验对象。在实验室条件下,通过连续稀释后在营养培养基上播种的方法,评价了化学制剂对引起根腐病的具有经济意义的植物病原体的杀真菌活性。此外,根据GOST 12044-93,采用处理种子植物检验方法考察了制剂的有效性。三唑类和苯基吡咯类制剂对根丝胞菌病、蠕虫孢子病和脓毒血症的抑制效果最强(100%)。含有三唑类化合物和strobiurins类化合物的制剂仅抑制茄枯丝核菌的生长。该制剂对多种植物病原真菌的抑制作用表现为生长迟缓、气生菌丝发育缺失和菌丝色素沉着。对镰刀菌根腐病病原,双组份制剂的防治效果为51% ~ 74.4%;三组分一-根据镰刀菌属的种类,从42.9%到84.7%不等。播前处理可以抑制镰刀菌属、毛霉属、曲霉属真菌的生长;显著抑制真菌交替菌的发展(在实验变异中传播- 1.7%,在对照变异中传播- 46.7%)。从所获得的数据可以得出结论,基于三唑和苯基吡咯的多组分制剂对抑制多种植物病原体非常有效,可以推荐用于播种前处理。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
COMPARATIVE ASSESSMENT OF FUNGICIDAL ACTIVITY OF PREPARATIONS FOR PRESOWING TREATMENT OF WINTER WHEAT
The massive use of one-component fungicides has caused the problem of the emergence of resistant forms of phytopathogens. The development of multicomponent plant protection products is one of the ways of dealing with such a situation. The aim of the study is to determine the effectiveness of multicomponent chemical dressing agents in suppressing the most common fungal pathogens and seed infections in vitro. This work was performed in 2020 in the Federal Research Center for Biological Plant Protection (Krasnodar) in the laboratory of the creation of microbiological plant protection products and a collection of microorganisms. Fungi of the Fusarium, Microdochium, Bipolaris, Alternaria, Penicillium, Rhizoctonia, Septoria, Pyrenophora genera were used as test objects. The fungicidal activity of chemical preparations against economically significant phytopathogens causing root rot was evaluated in laboratory conditions by the method of serial dilutions followed by sowing on a nutrient medium. In addition, the effectiveness of the preparations was investigated by the method of treated seeds phytoexamination according to GOST 12044–93. The preparations, which included triazoles and phenylpyrroles, had the strongest inhibitory effect (100 %) on pathogens of Rhizoctonia, helminthosporiosis and septoria. The preparation containing compounds of the group of triazoles and strobilurins suppressed the growth of Rhizoctonia solani only. The preparations’ inhibitory effect on a number of phytopathogenic fungi was manifested in growth retardation, absence of aerial mycelium development and mycelium pigmentation. Concerning the causative agents of Fusarium root rot, the two-component preparations efficacy ranged from 51 % to 74.4 %; three-component one – from 42.9 % to 84.7 % depending on the species of the genus Fusarium. Presowing seed treatment made it possible to inhibit the growth of fungi of the genera Fusarium, Mucor, Aspergillus; significantly inhibit the development of the fungus Alternaria (spread in the experimental variant – 1.7 %, in the control variant – 46.7 %). From the data obtained, it can be concluded that multicomponent preparations based on triazoles and phenylpyrroles are highly effective in suppressing a wide range of phytopathogens and can be recommended for presowing seed treatment.
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