Characteristics of the modern Antarctic krill (Euphausia superba) fishery and processing technologies. Russian prospects for the development and use of krill resources

The authors consider the state of the modern krill fishery and krill processing technologies, theire trends in the CCAMLR Convention Area, including the spatial-temporal dynamics of catch and fishery indices, issues of onboard and shore processing technologies of krill. The prospects for the development of the Russian krill fishery with the expansion of fishery capacities are discussed, with special attention to the priority areas of development and use of krill resources, issues of creating a Competence Center for the industrial development of krill resources based on the Atlantic branch of the VNIRO (AtlantNIRO).

1. Commercial description of productive areas of the Atlantic Ocean (south of parallel 500 c.w) and the Southeastern Pacific Ocean. – Kaliningrad: Kapros, 2013. Pp.279-116. (In Russ.)

2. Statistical Bulletin. 2024, Vol. 36. CCAMLR, Hobart, Australia. Electronic resources. Mode of access: https://www.ccamlr.org/ru/document/data/ccamlr-statistical-bulletin-vol-36 (Accessed 10.11.2024).

3. Bandurin K.V., Kasatkina S.M. Characteristics of modern fishing for Antarctic krill Euphausia superba (period from 2010 to 2022) in the Antarctic Atlantic. Prospects for the development of the domestic krill fishery // Fisheries. 2023. No. 1. Pp. 7-15. (In Rus., abstract in Eng.)

4. CCAMLR Conservation Measures // CCAMLR, Hobart, Australia. – 2024. – URL: https://cm.ccamlr.org/en/browse-measures-and-resolutions .

5. Katevas D.S. (2014). Krill Meal and Krill Oil: How price and tonnage competitive are they with other fishmeals and oils/Aquafeed: Advances in Processing & Formulation, vol. VI issue IV. Pp. 12-12. (In Russ.)

6. Antarctic krill. Handbook / edited by V.M. Bykova – M.: VNIRO. 2001. 207 p. (In Russ.)

7. Rod Cappell, Graeme MacFadyen, Andrew Constable Research funding and economic aspects of the Antarctic krill fishery. Marine Policy Vol. 143, September 2022

8. Krill, baby, krill: the corporations profiting from plundering Antarctica

9. Peng, Y., Ji, W., Zhang, D. et al. (2019). Composition and content analysis of fluoride in inorganic salts of the integument of Antarctic krill (Euphausia superba). Sci Rep 9, 7853

10. Stig Tore Kragh Jansson, Jon, Reidar Ervik, Leif Grimsmo, Rimfrost Technologies AS Reduced fluorine crustacean polar phospholipid compositions. United States patent US 10701954B2, July 2020.

11. Bruheim, I.; Griinari, M.; Ervik, J.R.; Remoy, S.R.; Remoy, E.; Cameron, J. (2016). Method for Processing Crustaceans to Produce Low Fluoride/Low Trimethyl Amine Products Thereof. U.S. Patent 20160345616 Al, 2 June

12. Beaudoin, A.; Martin, G. (2004). Method of Extracting Lipids from Marine and Aquatic Animal Tissues. U.S. Patent 6800299 B1, 5 October 2004

13. Xie D.; Jin J.; Sun J.; Liang L.; Wang X.; Zhang W.; Wang X.; Jin Q. Comparison of solvents for extraction of krill oil from krill meal: Lipid yield, phospholipids content, fatty acids composition and minor components. Food Chem. 2017. 233. Pp. 434-441.

14. Xie D.; Mu H.; Tang, T.; Wang X.; Wei W.; Jin, J., Wang, X.; Jin, Q. (2018). Production of three types of krill oils from krill meal by a three-step solvent extraction procedure. Food Chem. 248. Pp. 279-286.

15. Bruheim, I.; Griinari, M.; Ervik, J.R.; Remoy, S.R.; Remoy, E.; Cameron, J. (2017). Method for Processing Crustaceans to Produce Low Fluoride/Low Trimethyl Amine Products Thereof. U.S. Patent 20160345616 Al, 2 June 2016.

16. Gigliotti, J.C.; Davenport, M.P.; Beamer, S.K.; Tou, J.C.; Jaczynski, J. (2011). Extraction and characterisation of lipids from Antarctic krill (Euphausia superba). Food Chem. 125. Pp. 1028-1036.

17. Yin, F.-W.; Liu, X.-Y.; Fan, X.-R.; Zhou, D.-Y.; Xu, W.-S.; Zhu, B.-W.; Murata, Y.-Y. (2014). Extrusion of Antarctic krill (Euphausia superba) meal and its effect on oil extraction. Int. J. Food Sci. Technol. 50. Pp. 633-639.

18. Khan, L.M.; Hanna, M.A. (1983). Expression of oil from oilseeds – A review. J. Agric. Eng. Res. 28. Pp. 495-503.

19. Larsen P.M.; Fey S.J.; Breuning J.; Ludvigsen B. A (2007). Method for the Extraction of Lipid Fractions from Krill. WO Patent 2007080514 A2, 15 January 2007.

20. Katevas D.S.; Toro Guerra R.R.; Chiong Lay M. (2014). Solvent-Free Process for Acquiring Phospholipids and Neutral Enriched Krill Oils. U.S. Patent 8865236 B2, March 6. 2014.

21. Vinokur M.L. (2012). Scientific justification of the use of shell-containing waste from cutting crustaceans for supercritical carbon dioxide extraction of lipid-carotenoids complexes, dissertation of the Candidate of Technical Sciences. – Kaliningrad. 163 p. (In Russ.)

22. Liu H.-M.; Wang F.-Y.; L, H.-Y.; Wang X.-D.; Qin G.-Y. (2015). Subcritical Butane and Propane Extraction of Oil from Rice Bran. Bioresources. 10. Pp. 4652-4662.

23. Domínguez H.; Núñez M.; Lema, J. (1994). Enzymatic pretreatment to enhance oil extraction from fruits and oilseeds: A review. Food Chem. 49. Pp. 271-286.

24. Lee S. (2014).Krill Oil and Method for Manufacturing the Same. U.S. Patent 8624046 B2, January 7 2014.

25. Andreev M.P. (1982). Development of a technological process for producing raw and frozen minced meat from krill: Abstract. Dissertation of the Candidate of Technical Sciences. Kaliningrad, 25 p. (In Russ.)

26. Maslennikov V.V. (2003). Climatic fluctuations and the Antarctic marine ecosystem. Moscow: VNIRO. 296 p. (In Russ.)

27. Kasatkina S.M., Abramov A.M., Sokolov M.Yu. (2021). Biomass and distribution of Antarctic krill in the Antarctic Atlantic in January-February 2020 // Proceedings of AtlantNIRO. Vol. 5. No. 2 (12). Pp. 49-61. (In Russ.)

28. Bandurin K.V., Kasatkina S.M. (2021). The main directions of integrated resource management research of Russia in the Antarctic part of the Atlantic // Proceedings of AtlantNIRO. Vol. 2. No. 7(12). Pp. 5-12. (In Russ.)

29. Andriukhin A.V. Andreev M.P., Galdukevich V.A. (2022). Improving the technology of integrated processing of Antarctic krill (Euphausia superba) // Izvestiya KSTU. No. 64. Pp. 67-80.

30. Bandurin K.V. Kasatkina S.M., Nesterov A.A., Nigmatullin Ch.M., Timoshenko N.M. (2024). The raw material base and scientific support of Russian fisheries in the oceanic regions of the Atlantic and Southeastern Pacific: state, problems, prospects. – Kaliningrad. 2024 (in print).

31. Andriukhin, A.V. (2021). Size-mass composition and variability of lipid content in different parts of the body of Antarctic krill in the Antarctic Atlantic in January-March 2020 // Proceedings of AtlantNIRO. Vol. 5. No. 2 (12). Pp. 116-126. (In Russ.)