Aquaponics Fish Selection and Care
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Résumé
This article provides a thorough exploration of key factors crucial for the success of aquaponics systems, with a focus on fish health and welfare. It addresses critical considerations in selecting fish species, emphasizing factors such as water temperature requirements, growth rates, compatibility with plants, and market demand. The article further delves into maintaining optimal fish health, covering topics like water quality management, disease prevention, nutrition, and stress reduction. Additionally, it highlights the significance of proper stocking density and feeding practices for system performance, emphasizing their role in fish growth, nutrient cycling, and system sustainability. The article also provides insights into effective water quality management strategies, offering practical guidance for maintaining optimal conditions in aquaponics systems. Lastly, the article addresses breeding and fry rearing, essential components for sustaining fish populations, offering expert advice on selecting breeding pairs, providing suitable breeding conditions, and managing fry rearing. By incorporating these comprehensive insights, aquaponics practitioners can ensure the well-being of their fish population and optimize the overall performance and productivity of their systems.
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Références
G, Morgenstern R, Sanye-Mengual E, Lorleberg W, Dapprich P, et al. Improving water management in European catfish recirculating aquaculture systems through catfish-lettuce aquaponics. The Science of the total environment. 2019;687:759-67.
Ru D, Liu J, Hu Z, Zou Y, Jiang L, Cheng X, et al. Improvement of aquaponic performance through micro- and macro-nutrient addition. Environmental science and pollution research international. 2017;24(19):16328-35.
Zou Y, Hu Z, Zhang J, Fang Y, Li M, Zhang J. Mitigation of N(2)O Emission from Aquaponics by Optimizing the Nitrogen Transformation Process: Aeration Management and Exogenous Carbon (PLA) Addition. J Agric Food Chem. 2017;65(40):8806-12.
Bhatngar A, Devi P. Water quality guidelines for the management of pond fish culture. International journal of environmental sciences. 2013;3(6):1-30.
Bhavimani H, Puttaiah E. Fish Culture and Physico-chemical Characteristics of Madikoppa Pond, Dharwad Tq/Dist, Karnatak Hydrology Current Research. 2014;5(1):1-3.
Boonyaratpalin M. Nutrient requirements of marine food fish cultured in Southeast Asia. Aquaculture. 1997;151(1–4):283-313.
Buzby K, Waterland N, Semmens K, Lin L. Evaluating aquaponic crops in a freshwater flow-through fish culture system. Aquaculture. 2016;460:15-24.
Dediu L, Cristea V, Zhang XS. Waste production and valorization in an integrated aquaponic system with bester and lettuce. African Journal of Biotechnology. 2012;11(9):2349-58.
Wu YH, Chen QF, Wang JN, Liu T, Zhao WY. Substrates, Plants, and Their Combinations for Water Purification of Urban Household Aquaponics Systems. International journal of environmental research and public health. 2022;19(16).
Hu Z, Lee JW, Chandran K, Kim S, Brotto AC, Khanal SK. Effect of plant species on nitrogen recovery in aquaponics. Bioresource technology. 2015.
Pous N, Korth B, Osset-Alvarez M, Balaguer MD, Harnisch F, Puig S. Electrifying biotrickling filters for the treatment of aquaponics wastewater. Bioresource technology. 2021;319:124221.
Ampim PAY, Obeng E, Olvera-Gonzalez E. Indoor Vegetable Production: An Alternative Approach to Increasing Cultivation. Plants. 2022;11(21).
de Farias Lima J, Duarte SS, Bastos AM, Carvalho T. Performance of an aquaponics system using constructed semi-dry wetland with lettuce (Lactuca sativa L.) on treating wastewater of culture of Amazon River shrimp (Macrobrachium amazonicum). Environmental science and pollution research international. 2019;26(13):13476-88.
Hu Z, Lee JW, Chandran K, Kim S, Brotto AC, Khanal SK. Effect of plant species on nitrogen recovery in aquaponics. Bioresource technology. 2015;188:92-8.
Monsees H, Kloas W, Wuertz S. Decoupled systems on trial: Eliminating bottlenecks to improve aquaponic processes. PloS one. 2017;12(9):e0183056.
De Oro Ochoa E, Carmona Garcia M, Durango Padilla N, Martinez Remolina A. Design and experimental evaluation of a Venturi and Venturi-Vortex microbubble aeration system. Heliyon. 2022;8(10):e10824.
Fang Y, Chen X, Hu Z, Liu D, Gao H, Nie L. Effects of hydraulic retention time on the performance of algal-bacterial-based aquaponics (AA): focusing on nitrogen and oxygen distribution. Applied microbiology and biotechnology. 2018;102(22):9843-55.
Fang Y, Hu Z, Zou Y, Zhang J, Zhu Z, Zhang J, et al. Improving nitrogen utilization efficiency of aquaponics by introducing algal-bacterial consortia. Bioresource technology. 2017;245(Pt A):358-64.
Makhdom S, Shekarabi SPH, Shamsaie Mehrgan M. Biological nutrient recovery from culturing of pearl gourami (Trichogaster leerii ) by cherry tomato (Solanum lycopersicum) in aquaponic system. Environmental science and pollution research international. 2017;24(25):20634-40.
Stein LY. Agritech to Tame the Nitrogen Cycle. Cold Spring Harbor perspectives in biology. 2023.
Chu YT, Bao Y, Huang JY, Kim HJ, Brown PB. Supplemental C Addressed the pH Conundrum in Sustainable Marine Aquaponic Food Production Systems. Foods. 2022;12(1).
Derikvand P, Sauter B, Stein LY. Development of an aquaponics microbial inoculum for efficient nitrification at acidic pH. Applied microbiology and biotechnology. 2021;105(18):7009-21.
Thakur K, Kuthiala T, Singh G, Arya SK, Iwai CB, Ravindran B, et al. An alternative approach towards nitrification and bioremediation of wastewater from aquaponics using biofilm-based bioreactors: A review. Chemosphere. 2023;316:137849.
Vrablova M, Koutnik I, Smutna K, Markova D, Veverkova N. Combined SPRi Sensor for Simultaneous Detection of Nitrate and Ammonium in Wastewater. Sensors. 2021;21(3).
Petrea SM, Cristea V, Dediu L, Contoman M, Lupoae P, Placinta SI, et al. A comparison of nitrate level in spinach grown both under different densities in aquaponic system and under natural growth conditions. The Annals of the University Dunarea de Jos of Galati, Fascicle VI - Food Technology. 2013;37(2):47-58.
Cassoni AC, Costa P, Vasconcelos MW, Pintado M. Systematic review on lignin valorization in the agro-food system: From sources to applications. Journal of environmental management. 2022;317:115258.
Hou H, Zhang Y, Ma Z, Wang X, Su P, Wang H, et al. Life cycle assessment of tiger puffer (Takifugu rubripes) farming: A case study in Dalian, China. The Science of the total environment. 2022;823:153522.
Pechlivani EM, Papadimitriou A, Pemas S, Ntinas G, Tzovaras D. IoT-Based Agro-Toolbox for Soil Analysis and Environmental Monitoring. Micromachines. 2023;14(9).
Chang E, Lim JA, Low CL, Kassim A. Reuse of dialysis reverse osmosis reject water for aquaponics and horticulture. Journal of nephrology. 2021;34(1):97-104.
Modarelli GC, Vanacore L, Rouphael Y, Langellotti AL, Masi P, De Pascale S, et al. Hydroponic and Aquaponic Floating Raft Systems Elicit Differential Growth and Quality Responses to Consecutive Cuts of Basil Crop. Plants. 2023;12(6).
Khalil S, Panda P, Ghadamgahi F, Rosberg A, Vetukuri RR. Comparison of two commercial recirculated aquacultural systems and their microbial potential in plant disease suppression. BMC microbiology. 2021;21(1):205.
Hulata G. Genetic manipulations in aquaculture: a review of stock improvement by classical and modern technologies. Genetica. 2001;111(1-3):155-73.
Sae-Lim P, Kause A, Mulder HA, Olesen I. BREEDING AND GENETICS SYMPOSIUM: Climate change and selective breeding in aquaculture. Journal of animal science. 2017;95(4):1801-12.
Yue GH, Wang L. Current status of genome sequencing and its applications in aquaculture. Aquaculture. 2017;468, Part 1:337-47.
Lee C-S. Biotechnological advances in finfish hatchery production: a review. Aquaculture. 2003;227(1–4):439-58.
Gall GAE, Bakar Y. Application of mixed-model techniques to fish breed improvement: analysis of breeding-value selection to increase 98-day body weight in tilapia. Aquaculture. 2002;212(1-4):93-113.
Bentsen HB, Gjerde B, Nguyen NH, Rye M, Ponzoni RW, de Vera MSP, et al. Genetic improvement of farmed tilapias: Genetic parameters for body weight at harvest in Nile tilapia (Oreochromis niloticus) during five generations of testing in multiple environments. Aquaculture. 2012;338:56-65.
Dupont-Nivet M, Médale F, Leonard J, Le Guillou S, Tiquet F, Quillet E, et al. Evidence of genotype–diet interactions in the response of rainbow trout (Oncorhynchus mykiss) clones to a diet with or without fishmeal at early growth. Aquaculture. 2009;295(1–2):15-21.
Izquierdo MS, Fernández-Palacios H, Tacon AGJ. Effect of broodstock nutrition on reproductive performance of fish. Aquaculture. 2001;197(1–4):25-42.
Liang J-Y, Chien Y-H. Effects of feeding frequency and photoperiod on water quality and crop production in a tilapia–water spinach raft aquaponics system. International Biodeterioration & Biodegradation. 2013;85:693-700.
Carter CG. 13 - Feeding in hatcheries A2 - Davis, D. Allen. Feed and Feeding Practices in Aquaculture. Oxford: Woodhead Publishing; 2015. p. 317-48.
Summerfelt S, Vinci B, Piedrahita R. Oxygenation and carbon dioxide control in water reuse systems. Aquacultural Engineering. 2000;22:87–108.