The nitrification process for nitrogen removal in biofloc system aquaculture

Aquaculture is an economic activity that faces the unavoidable problem of water quality detriment, which is mainly generated by the improper management of production ponds, including inadequate water circulation and aeration, accumulation of undigested food residues, excretion of metabolic by‐produc...

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Bibliographic Details
Published in:Reviews in aquaculture 2020-11, Vol.12 (4), p.2228-2249
Main Authors: Robles‐Porchas, Glen Ricardo, Gollas‐Galván, Teresa, Martínez‐Porchas, Marcel, Martínez‐Cordova, Luis Rafael, Miranda‐Baeza, Anselmo, Vargas‐Albores, Francisco
Format: Article
Language:English
Subjects:
Aeration
Ammonia
ammonia‐oxidising bacteria
Aquaculture
Biofloc technology
Economic activities
Economic conditions
Effluents
Environmental conditions
Excretion
Food
Foods
Health risks
Microbial activity
Microorganisms
Nitrates
Nitrification
nitrite‐oxidising bacteria
Nitrogen
Nitrogen compounds
Nitrogen dioxide
Nitrogen removal
nitrogenous compounds
Organic matter
Organic nitrogen
Oxidation
Pathogens
Ponds
Suspended organic matter
Water circulation
Water exchange
Water quality
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Summary:Aquaculture is an economic activity that faces the unavoidable problem of water quality detriment, which is mainly generated by the improper management of production ponds, including inadequate water circulation and aeration, accumulation of undigested food residues, excretion of metabolic by‐products by the cultivated organisms and other. In addition, the increase in suspended organic matter together with the presence and generation of nitrogen compounds can severely affect the physiology of the animal, leading to significant losses in production. Ammonia (NH3), nitrite (NO2) and nitrate (NO3) are toxic in different scales and environmental conditions; therefore, reducing their concentrations in the culture units has paramount relevance. In this regard, bioflocs are an efficient alternative to transform nitrogen compounds into a non‐toxic form, taking advantage of the capabilities of the microbial communities conforming them. Also, nitrogen can be harnessed and incorporated as organic nitrogen, making the biofloc a source of useful natural food for the cultivated organism. The substantial reduction in the rate of water exchange favoured by the biofloc technology (BFT) is a beneficial advantage for both the production systems and the environment, diminishing the risk of introducing pathogens into the pond in parallel with the improvement in the water quality of effluents. Ammonia oxidation is an advantage adding value to the BFT systems and is discussed in this review.
ISSN:1753-5123
1753-5131
DOI:10.1111/raq.12431