student
Russian Federation
student
Russian Federation
Russian Federation
student
Russian Federation
Russian Federation
UDK 639.6 Разведение прочих морских животных и растений
GRNTI 69.25 Аквакультура. Рыбоводство
OKSO 35.02.09 Ихтиология и рыбоводство
BBK 472 Рыбное хозяйство
The technology being developed for the production of a feed mixture based on the biomass of a cultivated worm is aimed at improving factory feeds by adding an additional volume of protein, thereby increasing the nutritional value of the feed, eliminating the need to buy a specific feed of greater nutritional value, providing the opportunity to supplement feeds less saturated with protein components. Also, the technology being developed is aimed at partial or complete replacement of currently known protein feed components (such as soy meal, meat and bone meal and fish meal). In the course of the study, a trial production of a protein feed component was carried out, according to the methodologies described in the work, in order to test the proposed technology in practice.
UZV, California worm, Eisenia fetida, Dendrobaena Veneta, drying
1. Patent No. 2058737 - Method for obtaining technological (specialized) breeds of compost earthworm eisenia foetida Application date: 29.10.1991, Patent publication date: 27.04.1996
2. Kodolova O.P. Comparative study of the reproductive potential of local settlements of the compost worm Eisenia fetida (Oligochaeta, Lumbricidae) / O.P. Kodolova, B.R. Striganova, T.N. Sidorova // Izvestia of the USSR Academy of Sciences. 1993. No. 4. pp. 558-568. (Ser. biol.).
3. Igonin A.M. Earthworms: how to increase soil fertility tenfold by using an earthworm-"Prospector". - Kovrov: Mashtex, 2002. - 192 p.
4. Buchkova, L. I., Ponomarev, A. K., Bugaev, O. G., & Horeva, T. I. (2022). Analysis of The Microflora Of Mucus Secretions Of The Worm (Eisenia Fetida). In S. V. Beketov, & I. A. Nikitin (Eds.), Biotechnology, Ecology, Nature Management, vol 1. European Proceedings of Life Sciences (pp. 51-58). European Publisher. (Q1)
5. Evaluating the UV radiation effectiveness in industrial aquaculture / L. I. Bychkova, D. L. Nikiforov-Nikishin, A. K. Ponomarev, O. G. Bugaev // IOP Conference Series: Earth and Environmental Science: III International Scientific Conference: AGRITECH-III-2020: Agribusiness, Environmental Engineering and Biotechnologies, Volgograd, Krasnodar, June 18-20, 2020 / Krasnodar Science and Technology City Hall of the Russian Union of Scientific and Engineering Associations. - Volgograd, Krasnoyarsk: Institute of Physics and IOP Publishing Limited, 2020. - P. 42046. - DOIhttps://doi.org/10.1088/1755-1315/548/4/042046. - EDN WOLFXL. (Q2)
6. Temperature differentiation of aquatic microflora of a closed water supply system by the example of incubation of microbiological crops at 21 and 37 C / D. L. Nikiforov-Nikishin, A. L. Nikiforov-Nikishin, O. G. Bugaev, N. I. Kochetkov // IOP Conference Series: Earth and Environmental Science, Smolensk, January 25, 2021. - Smolensk, 2021. - P. 042049. - DOIhttps://doi.org/10.1088/1755-1315/723/4/042049. - EDN CDNIZM.
7. Khatuntsov, D.S. Aquaculture as the most effective means of restoring the sturgeon population / D.S. Khatuntsov, A.D. Larkin // Delta Science. - 2019. - No. 2. - Pp. 135-139. - EDN GHLIVI.
8. Technology of increasing the shelf life of rabbit meat in a supercooled-frozen state / A.V. Antipov, O. A. Prantsuz, V. A. Klimov, D. S. Khatuntsov // Questions of rabbit breeding. - 2020. - No. 2. - PP. 20-23. - EDN GQVBOD.
9. Svetlov Yu.V. Optimization of geometric characteristics and inter-layer unevenness of flow distribution in a three-flow heat exchanger of twisted construction / Yu. V. Svetlov, O. S. Prantsuz, D. R. Leskevich et al. // Delta nauki. - 2020. - No. 1. - Pp. 53-58. - EDN RWLURP.
10. Pauly D. et al. China's distant-water fisheries in the 21st century //Fishand Fisheries. - 2014. - Vol. 15. - No. 3. - Pp. 474-488.
11. Bianchi M. C.G. et al. FAO: The State of World Fisheries and Aquaculture //Food and Agriculture Organization of the United Nations: Rome, Italy. - 2014.
12. Molchanova K.A. Possibilities of disclosure of growth potency in rainbow trout in ultrasonic and open fish breeding systems / K.A. Molchanova, E.I. Khrustalev, T.M. Kurapova //Technologies of the food and processing industry of the agro-industrial complex-healthy food products. - 2016. - №. 5 (13).
13. Zabolotnykh M. V. et all . Silicon chelates as a factor in increasing the efficiency of poultry meat //Bulletin of Omsk State Agrarian University. - 2018. - №. 3 (31).
14. Degtyarik S. M. et al. Pathogens of bacterial infections of trout in fish farms in Belarus and Armenia. //Issues of fisheries in Belarus. - 2016. - No. 32. - Pp. 262-274.
15. Malovasty K.S. Diagnostics of diseases and veterinary examination of fish. - 2011.
16. Molchanova K.A. Comparison of morphometric indicators in producers of rainbow trout cultivated in the UZV / K.A. Molchanova, E.I. Khrustalev //Fisheries. - 2017. - №. 3. - Pp. 91-94.
17. Lapina O.V. Improving the efficiency of fisheries production through the use of ultrasonic technologies //Scientific research: problems and prospects. - 2019. - Pp. 21-25.
18. Ismagilov F. A. Features of the life of juvenile trout in the conditions of ultrasound //Tinchurin readings. - 2018. - Pp. 67-69.
19. Antonov A.I. Results of experiments on the cultivation of rainbow trout in the Tyumen region by industrial method (UZV) //Internauka. - 2016. - No. 3-2. - Pp. 54-57.
20. Molchanova K.A. Morphophysiological characteristics of rainbow trout grown in the UZV / K.A. Molchanova, E.I. Khrustalev, T.M. Kurapova //Fisheries. - 2017. - №. 5. - Pp. 89-92.
21. Vorobyev V.I. et al. Alternative sources of fish meal analogues //Izvestiya KSTU. - 2015. - Vol. 38. - Pp. 74-82.
22. Donnik I.M. Indicators of the nutritional value of fish meal and methods of its falsification / I.M. Donnik, A.Y. Loshmanova, N.N. Bespamyatnykh //Agrarian Bulletin of the Urals. - 2012. - №. 9 (101)
23. Beketov S.V. Qualitative assessment of fish meal protein used in aquaculture / S.V. Beketov, A.V. Kozlov, M.N. Great-grandfather, V.A. Klimov //Fisheries. - 2019. - №. 6. - Pp. 58-61.
24. Sergienko E. Rationing of quality and safety indicators of fish meal / E. Sergienko, N. Boeva, M. Dyachenko //Compound feed. - 2012. - No. 1. - Pp. 81-83.
25. Izmailovich I.B. Import substitution of fish meal with a new feed additive / Izmailovich I.B., N.N. Yakimovich //Actual problems of intensive development of animal husbandry. - 2018. - №. 21 (1).
26. Titov I.N. Vermiculture as a renewable source of animal protein from organic waste / I.N. Titov, V.M. Usoev //Bulletin of Tomsk State University. Biology. - 2012. - №. 2 (18).
27. Titov I.N. Earthworms as a renewable source of high-grade animal protein // Editorial Board. - 2013. - p. 173.
28. Smeshkov V. V., Dashkevich N. S., Korotkevich A. A. The quality of California worms: dis. - MGUP, 2014.
29. Burlachenko I.V. et al. The effect of bacterial contamination of feed on the growth and physiological state of juvenile sterlet //Proceedings of VNIRO. - 2002. - Vol. 141. - Pp. 194-207.
30. Grankina A.S., Golyakevich Z.S. Bacterial contamination of animal and vegetable feed used in animal husbandry //Biotics. - 2015. - No. 6. - p. 135.
31. Valentina Prosapio, Ian Norton, Yolanda De Marco. Freeze drying optimization using a life cycle assessment approach: a case study of strawberries //Proceedings of the University of Birmingham, 2017. - Pp. 15-22.
32. Lago L. A. Substantiation of parameters and modes of infrared drying of agricultural raw materials in a multi-tiered device. // Proceedings of the V.I. Vernadsky Crimean Federal University. - Pp. 20-88.