# Identifying the Effects of Fish and Rhizosphere on the Structure of the Planktonic Bacterial Communities and Resistome in an Aquaponics Recirculation Loop

**Authors:** Frédérique Changey, Christophe Merlin, Camille Fourrier, Pascal Fontaine, Laurence Mathieu

PMC · DOI: 10.1111/1758-2229.70128 · 2025-07-14

## TL;DR

This study explores how fish and plant rhizosphere influence bacterial communities and antibiotic resistance in aquaponics systems.

## Contribution

The study identifies fish as the primary driver of bacterial community structure and antibiotic resistance gene distribution in aquaponics.

## Key findings

- Fish-associated microbiota is the main driver of planktonic bacterial community structure.
- Rhizosphere reduces the relative abundance of detectable antibiotic resistance genes.
- Aquaponics units with different fish showed distinct bacterial and resistome profiles.

## Abstract

Since they are saving resources, recirculating aquaculture systems (RAS) are perceived as a viable production strategy. Among them, aquaponics combines aquaculture and hydroponic vegetable production. This system entails a closed‐loop water system and continuity between two main “generators of bacterial biodiversity” the plant and the fish, respectively associated with the rhizosphere and the gut microbiome. These ecosystems are powerful bioreactors capable of shaping microbial community structures by mimicking macroscale environmental interactions through selection, competition, and genetic invasion. This work aimed to clarify the respective roles of these bioreactors on planktonic bacteria and antibiotic‐resistant bacteria (ARB) composition and segregation within a commercial aquaponic system composed of four aquaponics units differing by the fish reared. These units were assessed using a high‐throughput qPCR (HT‐qPCR) analysis of 384 antibiotic resistant genes (ARGs) and mobile genetic elements (MGEs) as well as 16S rRNA metabarcoding. The results highlight that the most important driver of bacterial communities and ARG distribution pattern in aquaponics environments appears to be the fish through their associated microbiota. Rhizosphere micro‐environment seems to act as a mitigation factor on the relative abundance of detectable ARGs.

These results suggest that fish traits drive planktonic microbial communities. Rhizosphere seems to act as a mitigation factor on microbial communities and the relative abundance of detectable Antibiotic Resistance Genes.

## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12256928/full.md

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Source: https://tomesphere.com/paper/PMC12256928