# Single-strain and consortium inoculations with plant-beneficial Pseudomonas spp. promote lettuce growth under field conditions

**Authors:** Adrien Biessy, Mélanie Cadieux, Florence Mc Duff, Arianne Deshaies, Kosal Khun, Joël Lafond-Lapalme, Philippe Vigneault, Martin Filion

PMC · DOI: 10.1128/spectrum.03509-25 · Microbiology Spectrum · 2025-12-30

## TL;DR

Using two beneficial Pseudomonas bacteria together helps lettuce grow better in the field compared to using just one strain.

## Contribution

The study shows that a Pseudomonas consortium improves lettuce growth under field conditions and reveals a beneficial interaction between the strains.

## Key findings

- Pseudomonas consortium and P. protegens B21-024 significantly increased lettuce shoot dry weight in the field.
- Co-inoculation increased P. protegens B21-024 population in the rhizosphere compared to single-strain inoculation.
- Nitrogen-rich medium used for inoculum preparation contributed to plant growth promotion.

## Abstract

Plant-beneficial Pseudomonas spp. can promote plant growth by a wealth of mechanisms. Developing microbial inoculants encompassing multiple Pseudomonas strains (consortia) could represent an attractive solution to some of the problems encountered by single-strain inoculants, such as inconsistent rhizosphere colonization under field conditions. In this study, we evaluated the potential of Pseudomonas protegens B21-024 and Pseudomonas putida B21-029, inoculated alone or in combination, to promote lettuce growth under greenhouse and representative commercial field conditions. Plant growth metrics, including shoot fresh and dry weights, were used to evaluate plant growth promotion. In addition, unmanned aerial vehicle imaging was used to monitor plant growth in the field. Strain-specific primer-probe sets were also developed to study, using the quantitative polymerase chain reaction, the population dynamics of the two strains in rhizosphere soil. P. putida B21-029 and the Pseudomonas consortium significantly increased lettuce shoot fresh/dry weight under greenhouse conditions. In the field, only inoculation with P. protegens B21-024 and the Pseudomonas consortium promoted lettuce growth by significantly increasing shoot dry weight. Interestingly, the nitrogen-rich bacterial growth medium used to prepare the inocula played a role in the plant growth promotion achieved. Overall, the rhizosphere population of both Pseudomonas strains remained relatively stable during the growing season. However, the population of P. protegens B21-024 was significantly higher when it was co-inoculated with P. putida B21-029 than when inoculated alone, suggesting the existence of a beneficial relationship. These findings support the use of Pseudomonas consortia to promote the growth of leafy greens under field conditions.

Some bacteria belonging to the genus Pseudomonas can establish mutually beneficial relationships with many crop species, resulting in disease suppression and/or plant growth promotion. These microorganisms show potential to replace, at least in part, synthetic fertilizers and pesticides in agricultural field settings. While some Pseudomonas strains have been shown to promote lettuce growth, successfully developing Pseudomonas consortia would have many advantages over single-strain inoculations, including better effectiveness and rhizosphere colonization. In this study, a consortium encompassing two Pseudomonas strains successfully promoted lettuce growth under greenhouse and field conditions. The nitrogen-rich bacterial growth medium used for the preparation of inocula contributed to the plant growth promotion achieved. Strain-specific molecular markers were also developed to monitor the abundance of each strain in rhizosphere soil throughout the growing season. The results obtained in this study indicate that the two Pseudomonas strains under study successfully colonized the lettuce rhizosphere.

## Full-text entities

- **Chemicals:** nitrogen (MESH:D009584)
- **Species:** Pseudomonas (RNA similarity group I, genus) [taxon 286]

## Full text

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## Figures

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## References

66 references — full list in the complete paper: https://tomesphere.com/paper/PMC12889054/full.md

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Source: https://tomesphere.com/paper/PMC12889054