Biological control efficacy of Bacillus sp. REB711 on sheath blight of rice

IF 1.7 Q2 PLANT SCIENCES Plant Health Progress Pub Date : 2023-03-14 DOI:10.1094/php-10-22-0097-rs

Ateet Maharjan, Jobelle Bruno, S. Osti, I. Barphagha, J. Ham

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Abstract

Sheath blight (ShB), caused by Rhizoctonia solani, is one of the economically important rice diseases in Louisiana and other rice-growing regions. Fungicides are used to manage ShB but such chemical methods are not economically or ecologically sustainable. To develop new biological control agents for the management of ShB, bacteria isolated from rice plants in the field were initially screened in the laboratory based on their antagonistic activities against R. solani through plate assays that exhibit growth inhibition of the fungal pathogen. Efficacy of three selected strains of Bacillus spp. (RAB14R, REB711, and RRB985) in suppression of ShB was further evaluated under the greenhouse and field conditions. In field trials conducted in 2017 and 2018, foliar spray of Bacillus sp. REB711 significantly reduced the development of ShB compared to the non-treated control, although it was less effective than the azoxystrobin fungicide Quadris®. In greenhouse tests, Bacillus sp. REB711 significantly reduced ShB development (disease severity and lesion length) through seed treatment, while the other two strains of Bacillus spp. did not. The observed efficacy of Bacillus sp. REB711 could result from competition, antibiosis, and/or induction of plant defense system, and suggests that this bacterial strain could be used a potential biological agent for managing ShB by itself or in combination with fungicides to reduce the risk of fungicide resistance.

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芽孢杆菌REB711对水稻纹叶枯病的生物防治效果

纹章枯萎病（ShB）是由纹枯菌引起的，是路易斯安那州及其他水稻产区的重要经济病害之一。杀菌剂用于管理ShB，但这种化学方法在经济或生态上都不可持续。为了开发用于管理ShB的新的生物控制剂，在实验室中，根据从田间水稻植株中分离出的细菌对龙葵的拮抗活性，通过平板试验初步筛选出对真菌病原体生长具有抑制作用的细菌。在温室和田间条件下，进一步评估了三种选定的芽孢杆菌菌株（RAB14R、REB711和RRB985）对ShB的抑制效果。在2017年和2018年进行的田间试验中，与未处理的对照相比，叶面喷洒芽孢杆菌REB711显著减少了ShB的发生，尽管其效果不如嘧菌酯杀菌剂Quadris®。在温室试验中，芽孢杆菌REB711通过种子处理显著降低了ShB的发育（疾病严重程度和病变长度），而其他两种芽孢杆菌菌株则没有。观察到的芽孢杆菌REB711的效力可能来自竞争、抗菌和/或植物防御系统的诱导，并表明该菌株可以作为一种潜在的生物制剂，单独或与杀菌剂联合管理ShB，以降低杀菌剂耐药性的风险。

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来源期刊

Plant Health Progress Agricultural and Biological Sciences-Horticulture

CiteScore

3.00

自引率

13.00%

发文量

期刊介绍： Plant Health Progress, a member journal of the Plant Management Network, is a multidisciplinary science-based journal covering all aspects of applied plant health management in agriculture and horticulture. Both peer-reviewed and fully citable, the journal is a credible online-only publication. Plant Health Progress is a not-for-profit collaborative endeavor of the plant health community at large, serving practitioners worldwide. Its primary goal is to provide a comprehensive one-stop Internet resource for plant health information.