Studying of aquaponic systemsas innovative direction of fisheries development (literature review)

The article is devoted to review the aquaponic technology of growing fish and agricultural crops. This technology allows to achieve a significant intensification of production in comparison with recirculation systems and hydroponic plant cultivation. The use of aquaponic technologies as an effective, ecological, biosafety method for growing fish and plants is considered in this article. The principles of operation, technological designs of aquaponic installations, types of fish and plants are discussed. The efficiency and disadvantages of aquaponic systems are shown on the example of existing aquaponic farms. The scale of application of this technology in the world is considered, as well as the possibilities and prospects of their application in Belarus.

1. Tidwell J. H. Aquaculture Production Systems, Frankfort, Kentucky, USA: John Willey& Sons, 2012, 421 р.

2. Tyson R.C., Treadwell D.D., Simonne E.H. Opportunities and Challenges to Sustainability in Aquaponic Systems, 2011, vol. 21, pp. 6–13.

3. Grigor’ev V.A. Experience of joint cultivation of clarius catfish (Clarias gariepinus Burchell, 1822) and lettuce (Latuca sativa L.) by aquaponics. Estestvennye nauki [Natural Sciences], 2015, no. 4 (53), рр. 96–101 (in Russian).

4. Tjaša Griessler Bulc, Aleksandra Krivograd Klemenčič Akvaponika — orodje za sonaravno ribogojstvo, Nferenca VIVUS — s področja naravovarstva, kmetijstva, horticulture in živilstva «Znanije in izkuŝnje za nove podjetniŝke priložnosti, 24-25april 2013, Biotejniŝki center Naklo, Strahinj, 99 Naklo, Slovenija», 2013, pp. 439–452.

5. Voronina M.V. Using of hydroponic techniques in agriculture. Nauchnoe obespechenie agroprom kompleksa. Sb. statej po materialam XII vserossijskoj konferencii molodyh uchenyh, g. Krasnodar, 2019 g. [Scientific support of the agro-industrial complex: Collection of articles, based on the materials of the XII Russian Conference of Young Scientists, Krasnodar, 2019]. Krasnodar, 2019, рр. 219–220 (in Russian).

6. Gridina T.S., Aleksandrova U.S., Kuzov A.A. Innovative biotechnology for growing aquaculture and agricultural plants using a biological product in artificially formed storey type system. Sb. Akvakul’tura osetrovyh ryb: problemy i perspektivy. Sb. statej Mezhd. nauchno-prakt. konf. g. Astrahan’, 2017 g. [Sturgeon aquaculture: problems and prospects. Sat. articles Int. scientific and practical. conf., Astrakhan, 2017], Astrakhan, 2017, рр. 74–77 (in Russian).

7. Nikolajchik I.A., Zablockij Ju.N. Aquaponic systems as a method for the production of environmentally friendly agricultural products using waste-free technologies. Uchenye zapiski UO VGAVM [Scientific notes of UO VGAVM], 2009, vol. 45, issue 2, рр. 155–159 (in Russian).

8. Kovrigin A.V. Automated technology for the production of environmentally friendly crop and aquaculture products under controlled indoor conditions. Innovacii v APK: problemy i perspekti [Innovation in the agro-industrial complex: challenges and prospects], 2016, no. 4 (12), рр. 124–129 (in Russian).

9. Jur’eva E.V. Hydroponics and aquaponics - as modern methods of growing plants and fish. Sostojanie i puti razvitija akvakul’tury v Rossijskoj Federacii v svete importozameshhenija i obespechenija prodovol’stvennoj bezopasnosti strany. Materialy nacional’noj nauchno-prakticheskoj konferencii, g. Saratov, 4-5 okt. 2016 g. [The state and ways of developing aquaculture in the Russian Federation in the light of import substitution and ensuring the country’s food security. Materials from of national scientific and practical conference, Saratov]. Saratov, 4-5 Oct. 2016, рр. 146–150 (in Russian).

10. Syzdykov K.N., Kurzhykaev, Zh.K., Narbaev, S.N., Kuanchaleev, Zh.B., & Marlenov, Je. B. Fish-breeding indicators in aquaponics. Vestnik nauki [Bulletin of science], 2017, no. 3 (94), рр. 53 (in Russian).

11. McMurtry M.R., Sanders D.C., Cure J.D., Hodson R.G. Effects of Biofilter. Culture Tank Volume Ratios on Productivity of a Recirculating Fish. Vegetable CoCulture System, Journal of Applied Aquaculture, 7:4, 1997, pp. 33–51.

12. Khakyzadeh V. Waste to wealth: a sustainable aquaponic system based on residual nitrogen photoconversion. Royal Society of Chemistry, 2015, vol. 5, pp. 3917–3921.

13. Kozyr’ A.V., Cvirko, L.S. Influence of the aquapone module on the content of nitrogenous compounds in heat-water plants of closed water supply when growing clarium catfish (Clarias gariepinus). Vestnik Polesskogo gosudarstvennogo universiteta [Bulletin of Polessky State University], 2019, no. 1, рр. 87–94 (in Russian).

14. Pomazunova T.N., Kuzov, A.A., Markina, I.A. Aquaponics as a sustainable food production system. Sbornik statej: Issledovanija molodyh uchenyh — vklad v innovacionnoe razvitie Rossii doklady molodyh uchenyh v ramkah programmy «Uchastnik molodezhnogo nauchno-innovacionnogo konkursa» («U.M.N.I.K.»), g. Astrahan’, 2-4 okt. 2016 g. [Collection of articles: Research of young scientists - a contribution to the innovative development of Russia reports of young scientists within the framework of the program «Participant in the Youth Scientific and Innovative Competition» («U.M.N.I.K»), Astrakhan]. Astrakhan, 2-4 okt. 2016, рр. 257–258 (in Russian).

15. Sahdev Singh. A computer simulation model for wastewater management in an integrated (fish production-hydroponics) system. Blacksburg, Virginia, 1996, 150 p.

16. Kamareddine L.A, Maraqa, M.A. Lifecycle assessment of aquaponics. Pollution Assessment for Sustainable Practices in Applied Sciences and Engineering, 2021, pp. 1083–1108.

17. Alessio G. Allegrucci, G., Angle, G. Acquacoltura responsabile — Verso le produzioni acquatiche del terzo millennio Roma: Unimar-Uniprom, Advertising and Communication - Roma, 2001, 688 p.

18. Lennard W.A. Aquaponic integration of Murray Cod (Maccullochella peelii peelii) aquaculture and lettuce (Lactuca sativa) hydroponics. Ph.D dissertation, School of Applied Sciences, Department of Biotechnology and Environmental Biology, Royal Melbourne Institute of Technology. Melbourne, Victoria Australia, 2006, 50 p.

19. Omirzhanova N.M., Nurgazy, K.Sh., Barakbaev, T.T. Co-cultivation of clarium catfish (Clarias gariepinus) and strawberries repaired in a greenhouse aquapone plant. Sb. trudov: Voprosy rybnogo hozjajstva Belarusi [Collection of works: Issues of fisheries in Belarus], 2018, no. 34, рр. 115–122 (in Russian).

20. Dovlatov I.M., Smirnov, A.A., Proshkin, Ju.A. Ability to produce environmentally friendly crop and aquaculture products under controlled environmental conditions. Innovacii v sel’skom hozjajstve [Innovation in agriculture], 2020, no. 1 (34), рр. 80–86 (in Russian).

21. Jaeger C. Mass balanced based LCA of a common carp-lettuce aquaponics system. Aquacultural engineering, 84(2019), pp. 29–41.

22. Prestele K. Farm in the city. Novoe sel’skoe hozjajstvo [New agriculture], 2016, no. 4, рр. 44–45 (in Russian).

23. Kozyr’ A.V. Cvirko, L.S. Effect of the aquaponic NFT module on the mass accumulation rate of clarium catfish (Clarias gariepinus В., 1868). Biotehnologija. Dostizhenija i perspektivy razvitija. Sb. mater. III Mezhdunar. nauch.-prakt. konf., g. Pinsk, 22-23 nojabrja 2018 g. [Biotechnology. Achievements and prospects for development.Collection of materials of the IIIInternational Scientific and Practical Conference, Pinsk]. Pinsk, 22-23 november 2018, рр. 57–59 (in Russian).

24. Kovrigin A.V., Hohlova, A.P., Maslova, N.A. Study of operation efficiency of the automated aquaponic plant depending on its operation modes. Vestnik KrasGAU [Krasnodar State Agrarian University], 2015, no. 11(10), рр. 90–96 (in Russian).

25. Vikulova V.S. Aquaponics — as a new development of the agri-food complex. Zakonomernosti razvitija regional’nyh agropordovol’stvennyh system [Patterns of development of regional agri-food systems], 2015, no. 1, рр. 50–52 (in Russian).

26. Lapina O.V. Aquaponics as an innovative way to develop pond fish farming. Nauchnye dostizhenija: teorija, metodologija, praktika. Sb. nauch trudov po materialam IX Mezhdunar. nauch.-prakt. konf., g. Anapa, 28 ijunja 2019 g. [Scientific achievements: theory, methodology, practice. Collection of scientific works on the materials of the IX International Scientific and Practical Conference, Anapa]. Anapa, June 28, 2019, рр. 5–9 (in Russian).

27. Shherbinin Ju. Antonenko, A. Collection of information materials on the topic: Aquaponics - agricultural technology of the future. Belgorod, Department agroindustrial complex of Belgorod region; OGAU «Agro-Industrial Complex Innovation and Consulting Center», 2015, 46 р. (in Russian).

28. Bukreeva T.N., Nurgalieva L.B. On the experience of organizing research work using elements of paired learning technology based on the aquaponic system FishPlant. Sovremennye obrazovatel’nye tehnologii v sisteme obrazovanija. Materialy II Mezhdunarodnoj nauch.-prakt. konf., 2017 g. [Modern educational technologies in the education system. Materials. II International Scientific and Practical Conference]. 2017, рр. 9–12 (in Russian).

29. Kovrigin A.V. Report on research work on the topic «Development of an industrial technology project for the production of aquaculture products». Belgorod, Federal State Budgetary Educational Institution higher education «Belgorod State Agrarian University named after V.Ya. Gorin», 2016, 80 р. (in Russian). https://www.propozitsiya.com/promyshlennaya-akvaponika-prishla-v-ukrainu. Data dostupa: 21.07.2021.