Biocontrol Potential of Three Bacterial Strains, Isolated from Vermicompost, Against Pre-Emergence Damping-Off of Tomato Caused by Rhizoctonia solani, Under Laboratory and Greenhouse Conditions
Mohamed Baha Saeed, Abdulaziz M. Alnasser, Nasser I. Alaruk, Abdulrahmn A. Algrwai, Salman A. Aloudah, Sultan M. Al-Eid, Mark D. Laing

TL;DR
This study identifies two bacteria from vermicompost that can protect tomato seedlings from a soil disease caused by Rhizoctonia solani.
Contribution
The novel contribution is the identification and validation of two bacterial strains (NOAC.B77 and NOAC.B42) with strong biocontrol potential against tomato damping-off.
Findings
Two bacterial strains (NOAC.B77 and NOAC.B42) inhibited Rhizoctonia solani mycelial growth by over 79%.
Greenhouse trials showed these strains significantly reduced damping-off in tomato seedlings.
The strains could be commercialized as biological control agents for greenhouse tomato production.
Abstract
Synthetic chemicals, such as fertilizers and pesticides, are widely used in agriculture to improve soil fertility and to control weeds, pests and diseases. Numerous studies have highlighted the negative effects of these chemicals on the soil environment. In contrast, during vermicomposting, earthworms generate numerous beneficial outcomes. This study aimed to screen antagonistic bacteria found after vermicomposting for their potential to inhibit the pre-emergence damping-off of tomato seedlings caused by Rhizoctonia solani. Using a dual culture method, 85 bacterial isolates were screened, three of which demonstrated antagonistic activity against R. solani. Molecular characterization based on 16S ribosomal RNA identified the bacterial isolates as Bacillus subtilis (NOAC.B77), Bacillus vallismortis (NOAC.B42), and Bacillus cereus (NOAC.B17). The strains NOAC.B77 and NOAC.B42 exhibited the…
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Taxonomy
TopicsPlant-Microbe Interactions and Immunity · Composting and Vermicomposting Techniques · Plant Growth Enhancement Techniques
