假单胞菌群对矮牵牛灰霉病的生物防治功效

IF 4.4 2区 农林科学 Q1 PLANT SCIENCES
Sachin Naik, Laura J Chapin, Kaylee A South, Michelle Lyn Jones
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引用次数: 0

摘要

灰霉病菌是一种导致灰霉病的真菌病原体,由于其寄主范围广泛,在不同生长阶段都有感染能力,因此对温室作物的管理产生了重大影响。传统的控制方法主要依赖杀菌剂,但受到环境问题和抗杀菌剂菌株增加的挑战。本研究调查了有益假单胞菌作为可持续替代品的使用情况。我们假设,与单个菌株相比,特定的假单胞菌群能更有效地生物防治银环蛇属真菌。我们的研究调查了五种假单胞菌菌株(14B11、AP54、15H3、94G2 和 89F1),这些菌株已知能减轻矮牵牛×杂交种的灰霉病。通过生物膜形成和直接细菌抑制试验评估了细菌联合体的兼容性。在体外,我们使用共享空气空间双培养试验研究了细菌对灰霉病菌的生物防治效果;在植物体内,我们接种了分离的矮牵牛花。我们发现,菌株 14B11 的生物膜形成率最高,与单个培养物相比,14B11 和 89F1 的联合体显示出显著的增强效果,而 14B11 和 AP54 联合体的生物膜形成率略有增加,但不显著。不过,菌株 14B11 的功效受到菌株 15H3 的抑制。基因组分析在 14B11 和 AP54 中发现了与抗真菌化合物相关的基因簇,这有助于提高它们的生物防治潜力。对矮牵牛×杂交种'地毯红亮'的脱落花进行的试验证实,14B11、AP54 和它们的联合体能显著减轻病害的严重程度。这项研究强调了战略性假单胞菌菌群作为化学杀真菌剂的有前途的生态友好型替代品,通过加强我们对如何利用微生物相互作用来控制灰霉病的了解,促进可持续农业的发展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Biocontrol Efficacy of Pseudomonas Consortia Against Botrytis Blight in Petunias.

Botrytis cinerea, a fungal pathogen causing Botrytis blight, significantly impacts greenhouse crop management due to its broad host range and infection capabilities at various growth stages. Traditional control methods, primarily reliant on fungicides, are challenged by environmental concerns and the rise of fungicide-resistant strains. This study investigates the use of beneficial Pseudomonas bacteria as a sustainable alternative. We hypothesized that specific Pseudomonas consortia could provide more effective biocontrol of B. cinerea than individual strains. Our research investigated five Pseudomonas strains (14B11, AP54, 15H3, 94G2, and 89F1) known to reduce Botrytis blight in Petunia × hybrida. Compatibility for bacterial consortia was assessed through biofilm formation and direct bacterial inhibition assays. The biocontrol effects of the bacteria against B. cinerea were investigated in vitro using shared-air space dual culture assays and in planta by inoculating detached petunia flowers. We found strain 14B11 exhibited the highest biofilm formation, with consortia of 14B11 and 89F1 showing significant enhancement compared to individual cultures, while a slight, non-significant increase was observed in 14B11 and AP54 consortia. However, strain 14B11 efficacy was inhibited by strain 15H3. Genomic analyses identified antifungal compound-related gene clusters in 14B11 and AP54, contributing to their biocontrol potential. Trials with detached flowers of Petunia × hybrida 'Carpet Red Bright' confirmed significant disease severity reduction with 14B11, AP54, and their consortia. This research highlights strategic Pseudomonas consortia as promising, eco-friendly alternatives to chemical fungicides, promoting sustainable agriculture by enhancing our understanding of how microbial interactions can be used to manage Botrytis blight.

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来源期刊
Plant disease
Plant disease 农林科学-植物科学
CiteScore
5.10
自引率
13.30%
发文量
1993
审稿时长
2 months
期刊介绍: Plant Disease is the leading international journal for rapid reporting of research on new, emerging, and established plant diseases. The journal publishes papers that describe basic and applied research focusing on practical aspects of disease diagnosis, development, and management.
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