Antifungal properties of rhizobacterial strains in relation to fungi of agricultural crops

IF 0.8 Q2 Environmental Science

Biosystems Diversity Pub Date : 2022-11-03 DOI:10.15421/012242

Z. Shakirov, К. S. Mamanazarova, A. G. Sherembetov, N. Azimova

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Abstract

On earth, pathogenic fungal infections are considered one of the most common crop problems, accounting for more than 80% of all plant diseases. The production of biologics and the fight against pathogens are highly relevant priorities. In this article, rhizosphere cultures isolated from wheat root tubers have been studied in detail for the development of pathogenic fungi. In the course of research, the inhibitory properties of rhizobacteria against common pathogenic fungi were studied. The main mechanism of antagonism is that bacteria directly affect phytopathogens or increase plant resistance to diseases by enhancing immunity. The antagonistic activity of rhizospheric microorganisms was studied and the level of their action was determined. It has been established that wheat rhizospheric bacteria Escherichia hermannii, Enterobacter cloacae and Rahnella aquatilis affect the development of pathogens that cause Alternaria and Fusarium wilt. In the experiments, 46 strains of rhizobacteria of the genus Enterobacter (strain E. cloacae CCIM1022), Rahnella (R. aquatilis CCIM1023), Pantoea, Pseudomonas, Bacillus, Escherichia were isolated and the effectiveness of their antifungal properties on the reproduction of pathogenic fungi was tested. Pathogenic fungi Alternaria, Fusarium, causing diseases of vegetable and melon crops, were isolated from host plants. It is noted that rhizobacteria have a negative impact and block the development of pure cultures of fungi isolated from tomatoes, zucchini, figs, melons, causing fungal diseases on cups. The 46 isolated and tested strains of rhizobacteria effectively inhibited the development of pathogenic fungi. Of these, Rahnella is the first bacterium studied for this purpose, and has been given great importance in experiments to block the development of Alternaria (A. alternata CCIM 1021). The causative agents of alternariosis are widely open. However, large-scale analysis of their presence and control of pathogens has always been difficult. In experiments to combat the pathogen in the laboratory, a new agent was used to spread nitrogen-fixing bacteria.

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与农作物真菌有关的根杆菌菌株的抗真菌特性

在地球上，致病性真菌感染被认为是最常见的作物问题之一，占所有植物病害的80%以上。生物制剂的生产和对抗病原体是高度相关的优先事项。本文对从小麦块根中分离的根际培养物进行了详细的研究，以培养病原菌。在研究过程中，研究了根杆菌对常见病原菌的抑菌性能。拮抗作用的主要机制是细菌直接作用于植物病原菌或通过增强免疫增强植物抗病能力。研究了根际微生物的拮抗活性，测定了它们的拮抗水平。小麦根际细菌赫氏埃希菌、阴沟肠杆菌和水生Rahnella aquatilis影响引起稻瘟菌和枯萎菌的病原体的发育。本实验分离了肠杆菌属(Enterobacter，菌株E. cloacae CCIM1022)、Rahnella (R. aquatilis CCIM1023)、Pantoea、Pseudomonas、Bacillus、Escherichia等46株根瘤菌，考察了它们对病原菌繁殖的抑制作用。从寄主植物中分离到引起蔬菜和甜瓜作物病害的真菌Alternaria、Fusarium。值得注意的是，根细菌具有负面影响，阻碍了从番茄、西葫芦、无花果、瓜中分离的真菌纯培养物的发展，导致杯子上的真菌疾病。分离得到的46株根瘤菌均能有效抑制病原菌的生长。在这些细菌中，Rahnella是第一个为此目的而研究的细菌，并且在阻断交替菌(a.a alternata CCIM 1021)发展的实验中具有重要意义。交替病的病原体是广泛开放的。然而，大规模分析它们的存在和控制病原体一直很困难。在实验室对抗病原体的实验中，使用了一种新的药剂来传播固氮细菌。

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