Air Nanobubbles Enhance Viable Bacteria Counts, Abundance of Nitrifying Bacteria, and Reduce Nitrite Levels in Marine Recirculation Aquaculture Systems

Sean, Afifah, Lim, Tzer Shyun, Domingos, Jose A., Uichanco, Joseph A., Shen, Xueyan, and Gibson-Kueh, Susan (2025) Air Nanobubbles Enhance Viable Bacteria Counts, Abundance of Nitrifying Bacteria, and Reduce Nitrite Levels in Marine Recirculation Aquaculture Systems. Fishes, 10 (11). 550. pp. 1-16.

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Abstract

Recirculating aquaculture systems (RAS) address pollution, disease, and sustainability in commercial fish farming, but marine RAS are limited by biofilter maturation and nitrification. This study investigated the effects of air nanobubbles on water quality, fish growth, and bacterial communities in marine RAS stocked with juvenile Malabar red snapper, barramundi and saline-tolerant hybrid tilapia. Flow cytometry was evaluated as a rapid management tool for non-culturable microbes, finding viable bacterial counts 30–100 times higher than conventional total plate counts. There were no significant differences in fish growth, survival, or Feed Conversion Ratio between groups, likely due to low stocking densities (<20 kg/m<sup>3</sup>) and high water exchange rates (>100%/hour), indicating low system stress. Air nanobubbles did not significantly increase dissolved oxygen levels. While bacterial abundance in water was consistently higher in nanobubble-treated RAS (RAS-N), tank walls showed less biofilm. RAS-N also exhibited a higher abundance of nitrifying bacteria like Nitrospira and Marinobacter, leading to improved nitrogenous waste breakdown and lower nitrite levels. Future research should investigate nanobubbles’ benefits at higher stocking densities and longer durations to fully assess their impact on intensive aquaculture.

Item ID: 91846
Item Type: Article (Research - C1)
ISSN: 2410-3888
Keywords: flow cytometry, nanobubbles, nitrifying bacteria, total bacteria plate counts
Copyright Information: © 2025 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
Sensitivity Note: This study was partially funded by Sysmex Asia Pacific Pte Ltd. (funding number: 15092021141421-0001), which provided the CyFlow™ Cube 6 V2m with CyFlow Robby6 Autoload instruments and CyStain reagents for bacterial count analysis and duly acknowledged in the published paper.
Date Deposited: 13 Jul 2026 02:04
FoR Codes: 31 BIOLOGICAL SCIENCES > 3107 Microbiology > 310701 Bacteriology @ 34%
41 ENVIRONMENTAL SCIENCES > 4103 Environmental biotechnology > 410306 Environmental nanotechnology and nanometrology @ 33%
41 ENVIRONMENTAL SCIENCES > 4103 Environmental biotechnology > 410303 Bioremediation @ 33%
SEO Codes: 10 ANIMAL PRODUCTION AND ANIMAL PRIMARY PRODUCTS > 1002 Fisheries - aquaculture > 100202 Aquaculture fin fish (excl. tuna) @ 100%
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