# Unveiling resilience: coelomic fluid bacteria’s impact on plant metabolism and abiotic stress tolerance

**Authors:** Lamia Yakkou, Sofia Houida, Aicha El Baaboua, Serdar Bilen, Maryam Chelkha, Leyla Okyay Kaya, Abderrahim Aasfar, Fuad Ameen, Sartaj Ahmad Bhat, Mohammed Raouane, Souad Amghar, Abdellatif El Harti

PMC · DOI: 10.1080/15592324.2024.2363126 · Plant Signaling & Behavior · 2024-06-04

## TL;DR

Earthworm coelomic fluid bacteria enhance plant metabolism and help plants tolerate stressful soil conditions.

## Contribution

This study identifies specific bacteria from earthworm coelomic fluid that boost plant stress tolerance and metabolism.

## Key findings

- Bacteria like Pantoea vagans and Pseudomonas aeruginosa increased metabolite synthesis in plants.
- Abiotic stress did not reduce lipid composition in plants treated with coelomic fluid bacteria.
- Bacterial treatments correlated with higher concentrations of fatty acids and other metabolites.

## Abstract

Earthworms’ coelomic fluid (CF) has been discovered to possess properties that promote plant development. In particular, the earthworm’s coelomic fluid-associated bacteria (CFB) are the primary factor influencing the plants’ response. To investigate this, we used bacteria isolated from the CF and selected based on different plant growth-promoting traits, in a mesocosm ecosystem that includes plants. This experiment aimed to assess their impact on the metabolism of plants growing under abiotic stress environments (alkaline soil and nitrogen (N), phosphate (P), and potassium (K) deficit) and compare the lipid profiles of plants under the various treatments. We used seven different bacterial species isolated from the CF of Aporrectodea molleri and as a plant model Zea mays L. For the metabolomic analysis method, we used gas chromatography-mass spectrometry lipidomic. After observing the metabolomic profiles, we found that a few molecular pathways are involved in how plants react to bacterial biostimulants. The bacterial isolates belonging to Pantoea vagans, Pseudomonas aeruginosa, Bacillus paramycoides, and Bacillus thuringiensis have led to a significant increase in synthesizing several metabolites belonging to various chemical categories. Contrary to predictions, abiotic stress did not cause a drop in the composition and concentration of lipids in plants treated with the CFB, demonstrating the rigidity of the protective mechanisms. The statistical analysis based on the Pearson method revealed a positive significant correlation between plant growth parameters (length of the aerial part, surface of the leaves, and biomass) and some metabolites belonging to fatty acids, carboxylic acids, benzene derivatives, and alkanes. Moreover, the standard metabolic components of all treatments in much higher concentrations during bacterial treatments than the control treatment suggests that the bacteria have stimulated the overexpression of these metabolic components. According to these results, we could assume that plants treated with CFB exhibit an adaptability of abiotic stress defense mechanisms, which may be attributed to the upregulation of genes involved in lipid biosynthesis pathways.

## Linked entities

- **Chemicals:** nitrogen (PubChem CID 947), phosphate (PubChem CID 1061), potassium (PubChem CID 813), fatty acids (PubChem CID 264)

## Full-text entities

- **Chemicals:** N (MESH:D009584), carboxylic acids (MESH:D002264), P (MESH:D010758), lipid (MESH:D008055), alkanes (MESH:D000473), K (MESH:D011188), fatty acids (MESH:D005227), phosphate (MESH:D010710), benzene (MESH:D001554)
- **Species:** Bacteria Latreille et al. 1825 (Bacteria stick insect, genus) [taxon 629395], Bacillus thuringiensis (species) [taxon 1428], Bacillus paramycoides (species) [taxon 2026194], Pseudomonas aeruginosa (species) [taxon 287], Allolobophora molleri (species) [taxon 647718], Metaphire sieboldi (earthworm, species) [taxon 506672], earthworms (species) [taxon 71170], Zea mays (maize, species) [taxon 4577], Pantoea vagans (species) [taxon 470934]

## Full text

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## Figures

14 figures with captions in the complete paper: https://tomesphere.com/paper/PMC11152099/full.md

## References

49 references — full list in the complete paper: https://tomesphere.com/paper/PMC11152099/full.md

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Source: https://tomesphere.com/paper/PMC11152099