Use of Bacillus velezensis JNS-1 from vermicompost against strawberry root rot DOI Creative Commons
Lili Jiang, Haohao Yan, Yingzi Yin

и другие.

Frontiers in Microbiology, Год журнала: 2025, Номер 16

Опубликована: Апрель 23, 2025

China is the biggest producer of strawberry and has largest cultivation area worldwide. This study adopted an experimental method to explore effect vermicompost addition on yield quality strawberries investigate influence composition activity microbial communities in soilless systems. The significantly increased three soil enzymes, namely cellulase, urease, acid phosphatase. Furthermore, it nitrogen content strawberry-planted substrate, through NO 3 -N alkaline-N contents organic matter, as well available-K cation exchange capacity, but with no significant available-P substrate. Vermicompost effectively improved growth plants by transforming diversity increasing level beneficial transcription. average plant first-crop fruit vermicompost-treated was higher than that control. a biocontrol strain named JNS-1 isolated from vermicompost, which showed good direct inhibitory against mycelial Fusarium oxysporum Neopestalotiopsis spp. According its morphology 16S rRNA gene sequences, identified Bacillus velezensis . In greenhouse pot experiments field trials, B. found be effective controlling root rot disease. focuses using enhance health providing theoretical basis for use fields.

Язык: Английский

Use of Bacillus velezensis JNS-1 from vermicompost against strawberry root rot DOI Creative Commons
Lili Jiang, Haohao Yan, Yingzi Yin

и другие.

Frontiers in Microbiology, Год журнала: 2025, Номер 16

Опубликована: Апрель 23, 2025

China is the biggest producer of strawberry and has largest cultivation area worldwide. This study adopted an experimental method to explore effect vermicompost addition on yield quality strawberries investigate influence composition activity microbial communities in soilless systems. The significantly increased three soil enzymes, namely cellulase, urease, acid phosphatase. Furthermore, it nitrogen content strawberry-planted substrate, through NO 3 -N alkaline-N contents organic matter, as well available-K cation exchange capacity, but with no significant available-P substrate. Vermicompost effectively improved growth plants by transforming diversity increasing level beneficial transcription. average plant first-crop fruit vermicompost-treated was higher than that control. a biocontrol strain named JNS-1 isolated from vermicompost, which showed good direct inhibitory against mycelial Fusarium oxysporum Neopestalotiopsis spp. According its morphology 16S rRNA gene sequences, identified Bacillus velezensis . In greenhouse pot experiments field trials, B. found be effective controlling root rot disease. focuses using enhance health providing theoretical basis for use fields.

Язык: Английский

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