评估根瘤菌对鹰嘴豆镰刀菌枯萎病和灰霉病的生物防治效果。

IF 1.9 Q3 GENETICS & HEREDITY
Gurreddi Bhargavi, Meenakshi Arya, Prashant Prakash Jambhulkar, Anshuman Singh, Ajaya Kumar Rout, Bijay Kumar Behera, Sushil Kumar Chaturvedi, Ashok Kumar Singh
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引用次数: 0

摘要

背景:鹰嘴豆(Cicer arietinum L:鹰嘴豆(Cicer arietinum L.)的生产受到许多生物因素的影响,其中由 Fusarium oxysporum f. sp. ciceri 引起的镰刀菌枯萎病和由 Botrytis cinerea 引起的灰霉病导致了严重的损失。由于不宜施用杀菌剂,生物管理是植物保护的最佳选择。根圈栖息拮抗细菌是管理鹰嘴豆这些病害的重要成功替代策略之一。根瘤菌通过不同的机制,如产生抗生素、不同的酶、嗜苷酸来对抗病原体,从而减少病原体的生长:本研究旨在从不同鹰嘴豆田的土壤中分离出根瘤菌,以评估分离出的细菌对防治鹰嘴豆镰刀菌枯萎病和灰霉病的生物防治效果。研究人员从印度 Bundelkhand 地区的鹰嘴豆根瘤中分离出 67 种细菌。研究表明,分离出的细菌可减少鹰嘴豆中 Fusarium oxysporum f. sp. ciceris 和 Botrytis cinerea 的感染,降幅在 17.29% 到 75.29% 之间。在对所有细菌的生物防治效果进行筛选后,有 13 个最有希望的细菌分离物被考虑用于进一步研究,其中 3 个细菌分离物(15d、9c 和 14a)在体外对镰孢菌和灰霉病菌的拮抗作用最大,与体内作用相当。然而,在盆栽条件下,菌株(15d)对镰刀菌枯萎病和灰霉病的抗病率分别为 87.5%和 82.69%。利用 16S rRNA 基因对三个最有潜力的分离物进行了分子水平鉴定,发现它们分别是巨型普氏菌(9c 和 14a)和 Serratia marcescens(15d):本研究从印度邦德尔坎德邦(Bundelkhand)地区的根瘤土壤中发现了两种本地生物防治菌,可用于防治镰刀菌枯萎病和灰霉病。今后,应努力进一步验证与纳米材料共轭的生物控制剂,以增强在控制鹰嘴豆真菌病害方面的协同效应。这项研究必将加深我们对这些生物制剂的了解,并通过开发有效配方、应用方法和综合策略来提高它们的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Evaluation of biocontrol efficacy of rhizosphere dwelling bacteria for management of Fusarium wilt and Botrytis gray mold of chickpea.

Background: Chickpea (Cicer arietinum L.) production is affected by many biotic factors, among them Fusarium wilt caused by Fusarium oxysporum f. sp. ciceri and Botrytis gray mold caused by Botrytis cinerea led to severe losses. As fungicide application is not advisable, biological management is the best alternative for plant protection. The rhizosphere-dwelling antagonistic bacteria are one of the important successful alternative strategy to manage these diseases of chickpea. Rhizosphere dwelling bacteria serve as biocontrol agents by different mechanisms like producing antibiotics, different enzymes, siderophores against pathogens and thereby reducing the growth of pathogens.

Results: The present study aimed to isolate rhizospheric bacteria from the soils of different chickpea fields to evaluate biocontrol efficacy of the isolated bacteria to manage Fusarium wilt and Botrytis gray mold in chickpea. A total of 67 bacteria were isolated from chickpea rhizosphere from Bundelkhand region of India. Study revealed the isolated bacteria could reduce the Fusarium oxysporum f. sp. ciceris and Botrytis cinerea infection in chickpea between 17.29 and 75.29%. After screening of all the bacteria for their biocontrol efficacy, 13 most promising bacterial isolates were considered for further study out of which, three bacterial isolates (15d, 9c and 14a) have shown the maximum in vitro antagonistic effects against Fusarium oxysporum f. sp. ciceri and Botrytis cinerea comparable to in vivo effects. However, Isolate (15d) showed highest 87.5% and 82.69% reduction in disease against Fusarium wilt and Botrytis gray mold respectively, under pot condition. Three most potential isolates were characterized at molecular level using 16S rRNA gene and found to be Priestia megaterium (9c and 14a) and Serratia marcescens (15d).

Conclusion: This study identified two native biocontrol agents Priestia megaterium and Serratia marcescens from the rhizospheric soils of Bundelkhand region of India for control of Fusarium wilt, Botrytis gray mold. In future, efforts should be made to further validate the biocontrol agents in conjugation with nanomaterials for enhancing the synergistic effects in managing the fungal diseases in chickpea. This study will definitely enhance our understanding of these bioagents, and to increase their performance by developing effective formulations, application methods, and integrated strategies.

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