Root Rot Disease Biocontrol and Microbiome Community Modulation by Streptomyces Strains in Soybean

生物 根际 生物病虫害防治 杀菌剂 链霉菌 镰刀菌 丝核菌 植物病害 植物 生物技术 农学 园艺 细菌 茄丝核菌 遗传学
作者
Da‐Ran Kim,Young Jin Ko,Dong-Gyu Lee,Youn‐Sig Kwak
出处
期刊:Journal of Microbiology and Biotechnology [Springer Science+Business Media]
卷期号:35: e2502010-e2502010
标识
DOI:10.4014/jmb.2502.02010
摘要

Traditionally, phytopathogenic fungi control strategies rely primarily upon chemical fungicides, but fungicide resistance pathogen strains have appeared in the fields. Therefore, biocontrol approaches highlighted with sustainable agriculture aspects, especially the genus Streptomyces, are known to suppress numerous plant diseases. Streptomyces bacillaris S8 was isolated from turfgrass rhizosphere, and Streptomyces globisporus SP6C4 was obtained from strawberry pollen. Both strains showed excellent antifungal and antibacterial activities and suppressed various plant diseases in vitro. However, beneficial microorganisms are rarely studied and introduced to another effect on microbial communities when incompatible with the host. The present study aims to assess the potential of effective control of plant diseases by both strains in new crops and to assess the impact of endogenous microbiota. Various diseases pose significant concerns in soybean production, leading to substantial grain yield and quality losses. Root rot caused by Fusarium spp. is known to be the most problematic disease in the soybean cropping system. In the results, S. globisporus SP6C4 and S. bacillaris S8 showed antifungal activity against soybean root rot pathogen, but strain S8 had less than SP6C4. The strain SP6C4 played a role as hub-taxa in the early stage, and the strain S8 was a modulator in microbial communities. Our results demonstrate the antifungal activity of S. globisporus SP6C4 and S. bacillaris S8, which can be expected to grow and reduce the disease of soybeans. The S8 and SP6C4 can also modify the plant microbiota which may open a new dimension of crop microbiome research.
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