POTENTIAL OF USING COMMON FRESH WATER FISH OF THE ARCTIC TERRITORY OF KRASNOYARSK REGION FOR FOOD PURPOSES
Abstract and keywords
Abstract (English):
For small fish of the Arctic territory of the Krasnoyarsk Territory, in 2021, at the regional level, quotas for the total allowable catches of 2,600 tons have been established, of which the largest volume of 1,052 tons falls on the catch of vendace and 779 tons of the catch of burbot. Literature data indicate a high nutritional value of burbot and vendace, which are characterized by a protein content of 57 to 85 g / 100 g, the amount of amino acid scor is from 76 to 150%, the fat content is from 1 to 32 g / 100 g. The analysis of fatty acid composition showed a high degree of their unsaturation with a high oleic content of more than 21 g / 100 g in vendace and burbot meat, as well as more than 13 g / 100 g in burbot. It was found that the content of phosphorus, potassium and sodium prevails in burbot on average 2.1 times, compared with their content in vendace. However, vendace contains 96 times more magnesium than burbot. The zinc content has the same value and is 2.50 mg / 100 g. Veggie is characterized by a greater amount of calcium, iron, manganese and copper than burbot, on average 1.8 times. In terms of the quantitative content of vitamins D, E, B2, B6, B12, the studied objects have the same values. The results of the study of the assortment of vendace and burbot products presented in retail chains in Krasnoyarsk demonstrate no more than five product offerings from vendace and three from burbot. Four manufacturers of products from the surveyed objects in Krasnoyarsk were identified. Proposals have been formulated for saturating the trading niches of Krasnoyarsk with vendace and burbot products, including measures for the development of new types of products, their promotion to the consumer market in the segments of frozen semi-finished products: chopped, in a dough casing, fish and vegetable, etc.

Keywords:
burbot, vendace, biological potential, chemical composition, fish products, product offerings, fish resources
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References

1. Finished products from fish and seafood. Review of foreign economic activity [Electronic resource]. Agroexport: Federal Center for export development of agricultural products of the Ministry of Agriculture of Russia. URL: https://zen.yandex.ru/media/id/5ddd1a7cd8a5147cefe9d66c/obzor-ved-gotovaia-produkciia-iz-ryby-i-moreproduktov-60d18fc6b2ba075e65fbd65a (accessed: 10.12.2021).

2. Marketing research of the sturgeon fish market (on the territory of the Russian Federation) for PolymerBitum-Volzhsky LLC. AMPRO Business Growth Agency. Volgograd, 2019. 98 p.

3. On the distribution of the total allowable catches of aquatic biological resources in the internal waters of the Russian Federation, with the exception of the internal sea waters of the Russian Federation, in relation to the types of quotas for their production (catch) for 2021: order of the Federal Agency for Fishery of 30.11.2020 No 636 (revised from 17.08.2021) [Electronic resource]. – URL: https://docs.cntd.ru/document/573103913 (accessed: 10.12.2021).

4. Reports on the socio-economic development of the Taimyr Dolgan-Nenets municipal district for 2020. [Electronic resource]. URL: https://taimyr24.ru/left_menu/finance_and_economics/otchety-o-ser/ (accessed: 07.12.2021).

5. Gnedov, A. A. (2010). Biochemical composition of northern fish meat as a factor shaping their quality. Bulletin of KrasGAU. 11. 184-189.

6. Gnedov, A. A. (2020). Assessment of the quality of burbot meat (Lotalota (linnaeus)) of the river basin Yenisey. Bulletin of MGUP. 1(28). 31-39.

7. Lysikov, Yu. A. (2012). Amino acids in human nutrition. Experimental and Clinical Gastroenterology. 2. 88-105.

8. Fürst, P. (2009). Basics in clinical nutrition: proteins and amino acids. eSPEN, the European e-Journal of Clinical Nutrition and Metabolism. 4. e62 – e65.

9. Gnedov, A. A. (2019). Quality indicators of products obtained from the Arctic omul (Coregonus autumnalis Pallas) in the lower reaches of the Yenisei River basin. Food industry: science and technology. 2 (44). 75-82.

10. Gnedov, A. A. (2020). Analysis of the quality indicators of taimen meat (Hucho taimen (pallas)) in the lower reaches of the Yenisei basin. Food industry: science and technology. 2(48). 75-85.

11. Gnedov, A. A. (2020). Analysis of the quality indicators of the meat of the Asian smelt (toothed) (Osmerus mordax dentex (Mitchill)) in the basin of the r. Enisey. Food industry: science and technology. 13. 3(49). 28-35.

12. Gnedov, A. A. (2020). Assessment of the quality of pike meat (Esox lucius (linnaeus)) in the basin of the Yenisey. Bulletin of MGUP. 1 (28). 40-48.

13. Gnedov, A. A. (2010). Siberian Vendace (Coregonus sadinella (valenciennes)) – quality indicators, nutritional value. Science and Modernity. 4-1. 370-375.

14. Gnedov, A. A. (2018). Comparative analysis of the content of polyunsaturated fatty acids omega-3 and omega-6 in the meat of northern fish. Veterinary Pharmacological Bulletin. 4(5). 12-20.

15. Efimova, A. A., Stepanov, K. M., Petrova L. V., Pavlova, A. I., Filippov, G. G. (2013). Energy and biological value of commercial fish in Yakutia. Science and education. 4. 86-89.

16. Gladyshev, M. I., Glushchenko, L. A., Makhutova, O. N., Rudchenko A. E., Shulepina, S. P., Dubovskaya, O. P., Zuev, I. V., Kolmakov, V. I. & Sushchik, N. N. (2017). The composition of fatty acids of fish with different nutritional spectra in an Arctic lake. Reports of the Academy of Sciences. 474. 4. 513-516.

17. Gladyshev, M. I., Glushchenko, L. A., Makhmutova, O. N., Radchenko, A. E., Shulepina, S. P., Dubovskaya, O. P., Zuev, I. V., Kolmakov, V. I. & Suschik, N. N. (2018). Comparative analysis of the content of omega-3 polyunsaturated fatty acids in food and muscle tissue of fish from aquaculture and natural habitats. Contemporary Problems of Ecology. 11. 3. 325-339.

18. Van Kuijk, F. J. G. M., Buck, P. (1992). Fatty acid composition of the human macula and peripheral reference. Investigative Ophthalmology & Visual Science. 33 (13): 3493-3496.

19. Lauritzen, L., Hansen, H. S., Jorgensen, M. H. & Michaelsen, K. F. (2001). The essentiality of long chain n-3 fatty acids in relation to development and function of the brain and retina. Progress in Lipid Research. 40. 1-94.

20. McNamara, R. K., Carlson, S. E. (2006). Role of omega-3 fatty acids in brain development and function: Potential implications for the pathogenesis and prevention of psychopathology. Prostaglandins, Leukotrienes & Essential Fatty Acids. 75. 329-349.

21. Hulbert, A. J., Turner, N., Storlien, L. H. & Else, P. L. (2005). Dietary fats and membrane function: implications for metabolism and disease. Biological Reviews. 80. 155-169.

22. Mason, R. P., Jacob R. F., Shrivastava, S., Sherratt, S. C. R. & Chattopadhyay, A. (2016). Eicosapentaenoic acid reduces membrane fluidity, inhibits cholesterol domain formation, and normalizes bilayer width in atherosclerotic-like model membranes. Biochimica et Biophysica Acta. 1858. 3131-3140.

23. Qin, X., Park, H. G., Zhang, J. Y., Lawrence, P., Liu, G., Subramanian, N., Kothapalli, K. S. D. & Brenna, J. T. (2016). Brown but not white adipose cells synthesize omega-3 docosahexaenoic acid in culture. Prostaglandins, Leukotrienes & Essential Fatty Acids. 104. 19-24.

24. Gladyshev, M. I., Sushchik, N. N., Kalachova, G. S., Gubanenko, G. A. & Demirchieva, S. M. (2006). Effect of way of cooking on content of essential polyunsaturated fatty acids in muscle tissue of humpback salmon (oncorhynchusgorbuscha). Food Chemistry. 96. 3. 446-451.

25. Gladyshev, M. I., Sushchik, N. N., Kalachova, G. S., Gubanenko, G. A. & Demirchieva, S. M. (2007). Effect of boiling and frying on the content of essential polyunsaturated fatty acids in muscle tissue of four fish species. Food Chemistry. 101. 4. 1694-1700.

26. Technical Regulations of the Customs Union «Food products in terms of their labeling» [Electronic resource]. URL: https://docs.cntd.ru/document/902320347 (accessed: 09.12.2021).

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