Microbiome Migration from Soil to Leaves in Maize and Rice DOI Creative Commons

Jiejia Ma,

Qianze Peng,

Silu Chen

et al.

Microorganisms, Journal Year: 2025, Volume and Issue: 13(4), P. 947 - 947

Published: April 20, 2025

The interactions between plants and microbes are essential for enhancing crop productivity. However, the mechanisms underlying host-specific microbiome migration functional assembly remain poorly understood. In this study, from soil to leaves in rice (Oryza sativa) maize (Zea mays) was analyzed through 16S rRNA sequencing phenotypic assessments. When we used same source grow maize, microbiota traits were specifically enriched by its phyllosphere rhizosphere. This indicated that can selectively assemble microbiomes a shared source. Therefore, 22 strains isolated phyllospheres of construct synthetic microbial community (SynCom). growth inoculated with SynCom, belonging Bacillus compared phyllosphere. Additionally, strain Rhizobium rhizosphere These results suggest plant species influence within their respective compartments. Compared mock inoculation, SynCom inoculation significantly enhanced growth. microbiomes, Achromobacter, which assembled both played role Our findings underscore importance dynamics leveraging plant–microbe sustainable agriculture.

Language: Английский

Microbiome Migration from Soil to Leaves in Maize and Rice DOI Creative Commons

Jiejia Ma,

Qianze Peng,

Silu Chen

et al.

Microorganisms, Journal Year: 2025, Volume and Issue: 13(4), P. 947 - 947

Published: April 20, 2025

The interactions between plants and microbes are essential for enhancing crop productivity. However, the mechanisms underlying host-specific microbiome migration functional assembly remain poorly understood. In this study, from soil to leaves in rice (Oryza sativa) maize (Zea mays) was analyzed through 16S rRNA sequencing phenotypic assessments. When we used same source grow maize, microbiota traits were specifically enriched by its phyllosphere rhizosphere. This indicated that can selectively assemble microbiomes a shared source. Therefore, 22 strains isolated phyllospheres of construct synthetic microbial community (SynCom). growth inoculated with SynCom, belonging Bacillus compared phyllosphere. Additionally, strain Rhizobium rhizosphere These results suggest plant species influence within their respective compartments. Compared mock inoculation, SynCom inoculation significantly enhanced growth. microbiomes, Achromobacter, which assembled both played role Our findings underscore importance dynamics leveraging plant–microbe sustainable agriculture.

Language: Английский

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