Ribogospod. nauka Ukr., 2021; 3(57): 33-47
DOI: https://doi.org/10.15407/fsu2021.03.033
УДК 639.311.043.2:631.874

Cultivation of young-of-the-year carp with the use of chlorella (Chlorella (Beijerinck, 1890)) suspension

T. Hryhorenko, This email address is being protected from spambots. You need JavaScript enabled to view it. , Institute of Fisheries NAAS, Kyiv
N. Savenko, This email address is being protected from spambots. You need JavaScript enabled to view it. , Institute of Fisheries NAAS, Kyiv
N. Chuzhma, This email address is being protected from spambots. You need JavaScript enabled to view it. , Institute of Fisheries NAAS, Kyiv
A. Bazaieva, This email address is being protected from spambots. You need JavaScript enabled to view it. , Institute of Fisheries NAAS, Kyiv
Т. Bersan, This email address is being protected from spambots. You need JavaScript enabled to view it. , Institute of Fisheries NAAS, Kyiv

Purpose. Investigate ecological conditions and determine fish productivity of ponds when growing young-of-the-year carp using a suspension of chlorella.

Methodology. During the study, we used methods generally accepted in hydrochemistry, hydrobiology and fish farming.

Findings. The article presents the results of the study on the use of chlorella suspension in the cultivation of carp. It was found that the use of chlorella suspension created favorable hydrochemical conditions resulting in intensive development of zooplankton, which had a positive effect on the growth of young-of-the-year carp and fish productivity of the pond. The development of the natural food supply was sufficient to meet the nutritional needs of juvenile carp. The average seasonal biomass of zooplankton in the experimental pond was 28.68 g/m³ that was 1.5 times higher than in the control. The share of cladocerans in the total biomass of zooplankton in the experimental pond was 76.6%, versus 36.8% in the control. The average biomass of zoobenthos for the growing season in the experimental was 1.3 times higher than in the control, and was formed by chironomid larvae, which are valuable in the food chain.

Originality. The study investigated ecological conditions and fish productivity of growing ponds under conditions of the application of cattle manure and suspension of chlorella when growing carp in monoculture.

Practical value. It was found that the use of chlorella suspension promotes the intensification of the development of zooplankton organisms in ponds. The obtained data can be used to develop practical recommendations for optimizing the conditions for growing carp seeds and increasing the biological productivity of ponds.

Key words: nursery ponds, natural food supply, phytoplankton, zooplankton, zoobenthos, young-of-the-year carp, chlorella suspension, fish productivity.

REFERENCE

1. Andriushchenko, A. I., et al. (1998). Metody pidvyshchennia pryrodnoi ryboproduktyvnosti staviv. Kyiv.
2. Golovko, G. V. (2007). Optimizatsiya sposobov formirovaniya planktona v prudakh Nizhnego Dona. Extended abstract of candidate’s thesis. Astrakhan', 2007. 20 s.
3. Pestis, V., Kozlova, T., & Kozlov, A. (2018). Novoe slovo v tekhnologiyakh akvakul'tury. Nauka i innovatsii. Minsk: Belarusskaya nauka, 28-34.
4. Onyshchenko, O. M., & Dvoretskyi, A. I. (2013). Mikrovodorosti yak vidnovliuvanyi biolohichnyi resurs dlia potreb silskoho hospodarstva. Visnyk Dnipropetrovskoho derzhavnoho ahrarnoho universytetu, 2(32), 48-50.
5. Mikheeva, T. (2018). Perspektivy ispol'zovaniya kul'tiviruemykh i planktonnykh mikroskopicheskikh vodorosley. Nauka i innovatsii. Minsk: Belarusskaya nauka, 15-20.
6. Kharitonova, N. N., Galasun, P. T., & Panchenko, S. T. (1976). Metodicheskie rekomendatsii po sovershenstvovaniyu metoda kompleksnoy intensifikatsii prudovogo rybovodstva USSR v zavisimosti od zonal'nogo polozheniya khozyaystv. Kiev.
7. Kharitonova, N. N. (1974). Vliyanie udobreniy na povyshenie ryboproduktivnosti prudov. Tekhnologiya proizvodstva ryby. Moskva: Kolos, 66-72.
8. Kuznetsov, P. I., et al. (2013). Ekologicheskie problemy evtrofirovaniya vnutrennikh kontinental'nykh vodoemov Yuga Rossii i biotekhnologicheskiy metod povysheniya kachestva vody. Mezhvuzovskiy sbornik nauchn. statey  pod redaktsiey O.A. Polumordvinova. Astrakhan': AISI, 2(5), Spetsvypusk, 61-67.
9. Bogdanov, N. I. (2008). Biologicheskaya reabilitatsiya vodoemov. Penza: RIO PGSKhA.
10. Sharylo, Yu. Ye., Derenko, O. O., & Diudiaieva, O. A. (2020). Vykorystannia vodorostei vydu yak biolohichnyi metod ochyshchennia vodoim. Vodni bioresursy ta akvakultura, 1, 88-102. https://doi.org/10.32851/wba.2020.1.8 
11. Frolova, M. V., et al. (2019). Osobennosti vliyaniya shtamma Chlorella vulgaris IFR №S-111 na kachestvo vody v prudovom rybovodstve. Oroshaemoe zemledelie, 3, 46-49.
12. Bogdanov, N. I. (2007). Suspenziya khlorelly v ratsione sel'skokhozyaystvennykh zhivotnykh. Penza.
13. Ambrosimova, N. A., & Arutyunyan, T. V. (2019). Produktivnoe deystvie khlorelly v sostave startovogo kombikorma sevryugi. Rybovodstvo i rybnoe khozyaystvo, 7.
14. Trofimchuk, O. A., et al. (2020). Opyt vyrashchivaniya molodi pelyadi Coregonus peled pri dobavlenii suspenzii khlorelly. Rybovodstvo i rybnoe khozyaystvo, 5, 62-69.
15. Dzhuravets, Yu. Iu., et al. Intensyvnist masonakopychennia molodi sterliadi prisnovodnoi za dii suspenzii zhyvykh klityn Clorella vulgaris. Problemy funktsionuvannia ta pidvyshchennia bioproduktyvnosti vodnyi ekosystem, 55-57.
16. Brown, M. R., & Blackburn, S. I. (2013). Live microalgae as feed in aquaculture hatcheries. Advances in Aquaculture Hatchery Technology, 117-158. https://doi.org/10.1533/9780857097460.1.117 
17. Liu, L., Pohner, G., & Wei, D. (2016). Extracellular metabolites from industrial microalgae and their biotechnological potential. Marine drugs, 14, 10, 1-19. https://doi.org/10.3390/md14100191 
18. Alekin, O. A., Semenov, A. F., & Skopintsev, V. A. (1973). Rukovodstvo po khimicheskomu analizu vod sushi. Leningrad: Gidrometizdat.
19. Voda rybohospodarskykh pidpryiemstv. Zahalni vymohy ta normy. (2006). SOU-05.01.-37-385:2006. Kyiv: Ministerstvo ahrarnoi polityky Ukrainy.
20. Arsan, O. M., et al. (2006). Metody hidroekolohichnykh doslidzhen poverkhnevykh vod. Kyiv: Lohos.
21. Krazhan, S. A., & Lupacheva, L. I. (1991). Estestvennaya kormovaya baza vodoemov i metody ee opredeleniya pri intensivnom vedenii rybnogo khozyaystva (Spravochnyy material dlya rabotnikov prudovykh khozyaystv USSR). L'vov.
22. Asaul, Z. I. (1973). Opredelitel' presnovodnykh vodorosley. Evglenovye. Moskva: Nauka.
23. Vasser, S. P., et al. (1989). Vodorosli. Spravochnik. Kiev: Naukova dumka.
24. Topachevskiy, A. V., & Masyuk, N. P. (1984). Presnovodnye vodorosli Ukrainskoy SSR. Kyiv: Vishcha shkola. Golovnoe izd-vo.
25. Tsarenko, P. M. (1990). Kratkiy opredelitel' khlorokokkovykh vodorosley Ukrainskoy SSR. Kiev: Nauk. dumka.
26. Kutikova, L. A. (1970). Kolovratki fauny SSSR. Leningrad: Nauka.
27. Manuylova, E. F. (1964). Vetvistousye rachki (Cladocera) fauny SSSR. Moskva — Leningrad: Nauka.
28. Opredelitel' presnovodnykh bespozvonochnykh Evropeyskoy chasti SSR (Plankton, bentos). (1977). Leningrad: Gidrometeoizdat.
29. Pravdin, I. F. (1966). Rukovodstvo po izucheniyu ryb. Moskva: Pishchevaya prom-t'.
30. Sherman, І. M. (1994). Stavove rybnytstvo. Kyiv: Urozhay.
31. Sbornik normativno-tekhnologicheskoy dokumentatsii po tovarnomu rybovodstvu (1986). Vol. 1. Moskva: Agropromizdat.