4.7 Article

Belowground responses of bacterial communities to foliar SA application over four plant generations

Journal

PLANT AND SOIL
Volume 470, Issue 1-2, Pages 65-79

Publisher

SPRINGER
DOI: 10.1007/s11104-021-05158-7

Keywords

Metatranscriptomics; Soil microbial community; Taxonomy; Salicylic acid; Rhizosphere bacterial community

Funding

  1. China Scholarship Council

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The study found that foliar application of SA did not significantly affect the composition of bacterial genera in the rhizosphere of J. vulgaris, but specific genera were significantly impacted in the second, third, and fourth generations. Out of the total 270 bacterial species, 89 (32.4%) were present as the core microbiome in all treatments over four plant cycles.
Background and aims Jacobaea vulgaris plants grow better in sterilized than in live soil. Foliar application of SA mitigates this negative effect of live soil on plant growth. To examine what causes the positive effect of SA application on plant growth in live soils, we analyzed the effects of SA application on the composition of active rhizosphere bacteria in the soil. Methods We studied the composition of the microbial community over four consecutive plant cycles (generations), using mRNA sequencing of the microbial communities in the rhizosphere of J. vulgaris. We initiated the experiment with an inoculum of live soil collected from the field, and at the start of each subsequent plant cycle, we inoculated a small part of the soil from the previous plant cycle into sterile bulk soil. Results Application of SA did not significantly increase or decrease the Shannon diversity at genus level within each generation, but several specific genera were enriched or depleted after foliar SA application. The composition of bacterial communities in the rhizosphere significantly differed between plant cycles (generations), but application of SA did not alter this pattern. In the first generation no genera were significantly affected by the SA treatment, but in the second, third and fourth generations, specific genera were significantly affected. 89 species out of the total 270 (32.4%) were present as the core microbiome in all treatments over four plant cycles. Conclusions Overall, our study shows that the composition of bacterial genera in the rhizosphere significantly differed between plant cycles, but that it was not strongly affected by foliar application of SA on J. vulgaris leaves. Further studies should examine how activation of the SA signaling pathway in the plant changes the functional genes of the rhizosphere bacterial community.

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