# Synergistic Plant Biostimulatory Effects of an Inter-Kingdom Interaction: Chlorella sp. and Kocuria rhizophila Algal–Bacterial Co-Culture for Sustainable Crop Production

**Authors:** Katalin Tajti, Attila Farkas, Milán Farkas, Tibor Bíró, Vince Ördög, Gergely Maróti

PMC · DOI: 10.3390/plants15020292 · 2026-01-18

## TL;DR

Combining a green alga and a bacterium in a co-culture significantly boosts tomato plant growth and yield, suggesting a sustainable approach for agriculture.

## Contribution

The study demonstrates the synergistic biostimulatory effects of an inter-kingdom algal–bacterial co-culture on crop production.

## Key findings

- The algal–bacterial co-culture increased mean fruit yield by 43.7% in tomato plants.
- Combined treatment improved fruit weight and diameter significantly (p < 0.05).
- Algal EPS levels increased due to co-cultivation, contributing to enhanced biostimulatory effects.

## Abstract

Plant biostimulatory effects of the green alga Chlorella sp. MACC-360, the Kocuria rhizophila FSP120 bacterial strain, and the combined inter-kingdom co-culture of the alga and bacterium were investigated using Solanum lycopersicum as a model plant grown under controlled greenhouse conditions. The application of algal–bacterial co-cultures using the soil drench method significantly improved plant growth parameters, vegetative biomass yield, fruit yield, and photosynthetic performance of the tomato plants. The combined treatment resulted in a 43.7% increase in mean fruit yield, while individual applications of K. rhizophila FSP120 and Chlorella sp. MACC-360 enhanced yields by 30.85% and 19.44%, respectively. Although total yield increases did not reach statistical significance due to high intra-group variability, the treatment’s efficacy was statistically confirmed through key yield parameters including significantly higher fruit weight and fruit diameter (p < 0.05). The enhanced specific biostimulatory effects of the combined treatment could be at least partly attributed to the increased level of algal extracellular polymeric substances (EPS), which was a specific effect of algal co-cultivation with a Kocuria rhizophila bacterium. Detailed analysis of plant phenotypic alterations, biomass yield, fruit and flowering parameters, as well as microbial community analysis of the rhizosphere, were conducted and compared among the various treatments. Our results indicate that an appropriately chosen combination and application of biostimulatory microbes can significantly enhance crop production, which might contribute to more sustainable agriculture.

## Linked entities

- **Species:** Chlorella sp. (taxon 3079), Kocuria rhizophila (taxon 72000), Solanum lycopersicum (taxon 4081)

## Full-text entities

- **Chemicals:** MACC-360 (-)
- **Species:** Solanum lycopersicum (tomato, species) [taxon 4081], Kocuria rhizophila (species) [taxon 72000], Chlorella sp. (species) [taxon 3079]

## Figures

10 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12845376/full.md

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Source: https://tomesphere.com/paper/PMC12845376