# A synthetic Bacillus compound agent enhances cotton yield and fiber quality by regulating rhizosphere microbes and metabolites

**Authors:** Qingpeng Wang, Chengcai Yan, Qingyun Liu, Wenqing Gao, Lan Wang, Hongqiang Dong, Guodong Chen, Haiting Hao

PMC · DOI: 10.3389/fpls.2026.1774588 · Frontiers in Plant Science · 2026-03-09

## TL;DR

A new microbial agent improves cotton growth and fiber quality by altering soil microbes and nutrients.

## Contribution

A novel synthetic Bacillus compound agent is developed to enhance cotton yield and fiber quality through rhizosphere regulation.

## Key findings

- The agent increased cotton yield by 20.00%–24.34% and improved fiber quality metrics.
- Soil nutrient levels and microbial community diversity were significantly altered by the agent.
- Specific microbial genera and soil metabolites changed in response to the treatment.

## Abstract

To improve cotton yield and reduce reliance on chemical fertilizers and pesticides, we synthesized a novel compound microbial agent with cotton growth-promoting activity. Pot experiments demonstrated that application of this agent significantly promoted cotton seedling growth: chlorophyll content increased by 6.6%, root activity was enhanced by 87.69%, and malondialdehyde (MDA) content decreased by 44.36%. Furthermore, the agent treatment significantly enhanced the antioxidant enzyme activities in cotton seedlings, with catalase (CAT), peroxidase (POD), and superoxide dismutase (SOD) activities increasing by 136.56%, 125.00%, and 45.73%, respectively. Field plot trials showed that the agent increased cotton yield by 20.00%–24.34% and improved fiber quality, with the spinning consistency index, breaking fiber strength, and elongation increased by 7.35%, 7.48%, and 3.06%, respectively. Further analyses of nutrient contents in cotton leaves, rhizosphere soil physicochemical properties, amplicon sequencing, and untargeted metabolomics revealed that, compared with the control group: nitrogen (N), phosphorus (P), and potassium (K) contents in cotton leaves increased by 33.27%, 68.24%, and 37.76%, respectively; rhizosphere soil pH decreased by 2.78%, while available phosphorus (AP), organic matter (OM), and total phosphorus (TP) increased by 33.43%, 17.40%, and 73.26%, respectively; bacterial community Chao1 index decreased by 7.93%, whereas the Shannon index increased by 0.29%; fungal community Chao1 and Shannon indices increased by 17.54% and 1.07%, respectively. At the genus level, the relative abundances of Iamia, Polycyclovorans, Arenimonas, and Verticillium increased by 43.48%, 10.51%, 31.27%, and 67.58%, respectively, whereas those of Bacillus and Fusarium decreased by 35.37% and 21.00%, respectively. Moreover, the secondary metabolite composition in rhizosphere soil was altered: terpenoid and nitrogen-containing compound contents increased, while phenol content decreased, with significant accumulation of tryptamine, L-tryptophan, and serotonin. This study confirms that the novel compound microbial agent enhances cotton yield and fiber quality via synergistic mechanisms, providing effective technical support for the development of green cotton production.

## Linked entities

- **Chemicals:** malondialdehyde (PubChem CID 10964), peroxidase (PubChem CID 9865515), tryptamine (PubChem CID 1150), L-tryptophan (PubChem CID 6305), serotonin (PubChem CID 5202)
- **Species:** Bacillus (taxon 1386), Iamia (taxon 467975), Polycyclovorans (taxon 1274363), Arenimonas (taxon 490567), Verticillium (taxon 1036719), Fusarium (taxon 5506)

## Full-text entities

- **Genes:** SOD1 (superoxide dismutase 1) [NCBI Gene 6647] {aka ALS, ALS1, HEL-S-44, IPOA, SOD, STAHP}, CAT (catalase) [NCBI Gene 847]
- **Chemicals:** AP (-), terpenoid (MESH:D013729), MDA (MESH:D008315), L-tryptophan (MESH:D014364), K (MESH:D011188), serotonin (MESH:D012701), phenol (MESH:D019800), tryptamine (MESH:C030820), N (MESH:D009584), P (MESH:D010758), chlorophyll (MESH:D002734)
- **Species:** Verticillium (genus) [taxon 1036719], Bacillus (genus) [taxon 55087]

## Full text

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## Figures

8 figures with captions in the complete paper: https://tomesphere.com/paper/PMC13007723/full.md

## References

62 references — full list in the complete paper: https://tomesphere.com/paper/PMC13007723/full.md

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Source: https://tomesphere.com/paper/PMC13007723