Technology of growing young carp in fish farm Ltd “Mykolaivska RMS”
We have studied the possibility of increasing the production of young carp by applying a set of intensification measures and the introduction of innovative production methods, when growing it in artificial reservoirs. Works that has been carried out works provided with technology of cultivation of young fishes as one of the first stages of production of marketable products in aquaculture, secures the selection of qualitative and viable breeding material, providing it with appropriate environmental conditions for normal growth and development, search of optimum and balanced compound feeds which will supplement natural fodder base of ponds, and carrying out of complex measures concerning intensification of fish farming taking into account natural-climatic and geographical-zonal features of a separate economy. The main purpose of the work was to improve the technology of growing young fish in the carp farm of Ltd "Mykolaivska RMS" when using in the feeding of this year's granular feed. Generally accepted hydrochemical, hydrobiological and fish farming methods were used in order to achieve this goal. The technological features of growing carp fish planting material at low planting densities were studied in the ponds of the experimental fishery. The effect of land reclamation, fertilization of ponds to improve the natural feed base, feeding fish with granular feed with a well-balanced content of nutrients and biologically active substances, with constant control of temperature and hydrochemical regimes of ponds on morphometric parameters expediency of carrying out such measures in fisheries. Our research results indicate that the natural fodder basis of ponds of the experimental carp farm Ltd "Mykolaivska RMS" does not fully meet the regulatory conditions for growing young carp and carrying out the above set of intensification measures in combination with feeding young carp granular concentrated organic feed environmentally friendly and economically feasible.
Burlaka, V., & Melenivskyi, O. (2016). Dynamika zatrat kormu pry vyroshchuvanni tsoholitok koropa. Theoretical and Applied Veterinary Medicine, 4(1), 56–60. URL: https://bulletin-biosafety.com/index.php/ journal/article/view/64 (in Ukrainian).
Dvoretskiy, A., Rozhkov, V., & Savenko, K. (2016). Vykorystannia kombikormiv riznoho skladu pry vyroshchuvanni tovarnoho koropa v polikulturi. Theoretical and Applied Veterinary Medicine, 4(1), 89–93. URL: https://bulletin-biosafety.com/ index.php/journal/article/view/70 (in Ukrainian).
Khilchevskyi, V. K., Osadchyi, V. I., & Kurylo, S. M. (2019). Rehionalna hidrokhimiia Ukrainy. Kyiv: VPTs “Kyivskyi universytet” (in Ukrainian).
Kononenko, R. V., Shevchenko, P. H., Kondratiuk, V. M., & Kononenko, I. S. (2016). Intensyvni tekhnolohii v akvakulturi: navch. posib. K.: “Tsentr uchbovoi literatury” (in Ukrainian).
Loboiko, Yu. V., & Dumych, O. Ya. (2014). Pryrodna kormova baza vyroshchuvalnykh staviv. Naukovyi visnyk Lvivskoho natsionalnoho universytetu veterynarnoi medytsyny ta biotekhnolohii im. S.Z. Gzhytskoho, 16(2), 202–211. URL: http://nbuv.gov.ua/ UJRN/nvlnu_2014_16_2(2)__36 (in Ukrainian).
Metodyka zboru i obrobky ikhtiolohichnykh ta hidrobiolohichnykh materialiv (1998). K.: ІRG UAAN (in Russian).
Osadchyi, V. I. (2017). Resursy ta yakist poverkhnevykh vod Ukrainy v umovakh antropohennoho navantazhennia ta kli-matychnykh zmin (za materialamy naukovoi dopovidi na zasidanni Prezydii NAN Ukrainy 31 travnia 2017 r.). Visnyk Natsionalnoi akademii nauk Ukrainy, 8, 9–46. doi: 10.15407/visn2017.08.029 (in Ukrainian).
Pravdin, I. F. (1966). Rukovodstvo po izucheniju ryb. M.: Pishhevaja promishlennost' (in Russian).
Senechyn, V. (2020). Tekhnolohiia vyroshchuvannia obiektiv akvakultury v umovakh PP “Kunitskyi” Mlynivskoho raionu Rivnenskoi oblasti. Naukovyi visnyk LNU veterynarnoi medytsyny ta biotekhnolohii. Seriia: Silskohospodarski nauky, 22(93), 50–54. doi: 10.32718/nvlvet-a9309 (in Ukrainian)
Abstract views: 41 PDF Downloads: 26