A new “Sardine Era”: results of researches and fishe- ry in the first decade

   Japanese sardine stock assessments in the North-West Pacific are overviewed for the past 10 years on the data of research surveys by midwater trawls in the area at the Pacific side of Kuril Islands in 2014–2024 and fishery statistics. The feeding schools of sardine began to enter the waters at Kuril Islands in 2014, these migrations had significant seasonal and interannual dynamics during the decade under influence of oceanographic conditions in the zone of warm and cold currents interaction. The Russian fishery of sardine started in 2016 and continued until nowadays, with the maximum annual catch recorded in 2024.

1. Aksyutina, Z.M., Elementy matematicheskoi otsenki rezul’tatov nablyudenii v biologicheskikh i rybokhozyaistvennykh issledovaniyakh (Elements of Mathematical Evaluation of the Results of Observations in Biological and Fishery Research), Moscow: Pishchevaya Promyshlennost’, 1968.

2. Babayan, V.K., Predostorozhnyi podkhod k otsenke obshchego dopustimogo ulova (ODU) (The Precautionary Approach to the Assessment of Total Allowable Catch (TAC)), Moscow: VNIRO, 2000.

3. Baitalyuk, A.A., Radchenko, V.I., Antonenko, D.V., Starovoytov, A.N., and Novikov, Yu.V., Status of stocks and prospects for the Far Eastern sardine Sardinops melanostictus (Temminck & Schlegel, 1846) fishery, in Mater. 2-y Mezhdunar. nauchno-prakt. konf. “Rybokhozyaystvennyy kompleks Rossii: 300 let rossiyskoy akademicheskoy nauke” (Proc. 2^ndInt. Sci. Pract. Conf. “The fishery complex of Russia: 300 years of Russian academic science”), Moscow: VNIRO, 2024, pp. 47–52.

4. Baryshko, M.Ye., Promysel skumbrii i sardiny-ivasi na Dal’nem Vostoke (Mackerel and sardine fisheries in the Far East), Vladivostok: Dalrybvtuz, 2009.

5. Belyaev, V.A., Ekosistema zony techeniya Kurosio i yeye dinamika (Ecosystem of the Kuroshio Current Area and its Dynamics), Khabarovsk: Khabarovskoye knizhnoye izdatel’stvo, 2003.

6. Belyaev, V.A., Novikov, Yu.V., and Svirsky, V.G., Far Eastern sardine reserves and changes in the ichthyocene of the Northwestern Territory, Rybn. Khoz., 1991, no. 8, pp. 24–27.

7. Bulatov, O.A., Kotenev, B.N., and Krovnin, A.S., On the prospects for a new “Sardine era” in the northwestern Pacific, Vopr. Rybolov., 2016, vol. 17, no. 4, pp. 385–405.

8. Buslov, A.V. and Baitalyuk, A.A., Bulk fishing vessels — a new trend in pollock fishing off the southern Kuril Islands, Rybn. Khoz., 2023, no. 4, pp. 74–79. doi 10.37663/0131-6184-2023-4-74-79

9. Velikanov, A.Y., Pacific sardine (Sardinops melanostictus) migrations to the shores of Sakhalin Island in the 20^th–early 21^st centuries, Vopr. Ichtiol., 2016, vol. 56, no. 5, pp. 715–727. doi: 10.1134/S0032945216040147

10. Velikanov, A.Ya., Buslov, A.V., Nikitin, V.D., Kusailo, O.V., Tshay, Zh.R., Latkovskaya, E.M., Frolov, E.V., and Lysikova, A.S., New appearance of japanese sardine Sardinops melanostictus (Clupeidae) at the western coast of Sakhalin, Izv. Tikhookean. Nauchno-Issled. Inst. Rybn. Khoz. Okeanogr., 2012, vol. 171, pp. 62–68.

11. Dudarev, V.A., Oceanological bases of distribution, migration and population dynamics of the Far Eastern sardine, in Gidrometeorologiya i gidrokhimiya morei. T. 8: Yaponskoye more. Vyp. 2: Gidrokhimicheskiye usloviya i okeanologicheskiye osnovy formirovaniya biologicheskoi produktivnosti (Hydrometeorology and Hydrochemistry of Seas, vol. 8: Sea of Japan, no. 2: Hydrochemical Conditions and Oceanographic Bases of Formation of Biological Productivity), St. Petersburg: Gidrometeoizdat, 2004, pp. 229–234.

12. Dudarev, V.A., Sardine of the Sea of Japan, its ecology and fishery, Extended Abstract of Cand. Sci. (Biol.) Dissertation, Vladivostok: TINRO, 1985.

13. Dudarev, V.A. and Galeev, A.I., Interannual dynamics of size, age composition and parameters of growth for japanese sardine Sardinops melanostictus in periods of its high abundance in the North-West Pacific, Izv. Tikhookean. Nauchno-Issled. Inst. Rybn. Khoz. Okeanogr., 2021, vol. 201, no. 3, pp. 561–576. doi: 10.26428/1606-9919-2021-201-561-576

14. Dyldin, Yu.V., Orlov, A.M., Velikanov, A.Ya., Makeev, S.S., Romanov, V.I., Morusi, I.V., and Hanel, L., Ichthyofauna of the Aniva Bay (the Sakhalin Island, the Sea of Okhotsk), Novosibirsk: IC NGAU “Zolotoy kolos”, 2020. doi: 10.31677/isbn978_5_94477_271_8

15. Zuenko, Yu.I., Shifts of spawning grounds and dates of mass spawning for Japanese sardine in the Japan Sea and their contribution to its reproduction, Izv. Tikhookean. Nauchno-Issled. Inst. Rybn. Khoz. Okeanogr., 2011, vol. 166, pp. 103–122.

16. Ivanov, O.A., Radchenko, V.I., Shuntov, V.P., and Starovoytov, A.N., The fish community of the upper epipelagic layer of Russian pacific waters during the “renaissance” of the Japanese sardine in the early 21^st century, Rus. J. Mar. Biol., 2024, vol. 50, no. 7, pp. 369–379. doi: 10.1134/S1063074024700366

17. Klyashtorin, L.B. and Lyubushin, A.A., Tsiklicheskiye izmeneniya klimata i ryboproduktivnosti (Cyclic Changes in Climate and Fish Capacity), Moscow: VNIRO, 2005.

18. Kruchinin, O.N., Mizyurkin, M.A., Zakharov, E.A., Volotov, V.M., Shabelsky, D.L., and Vakker, N.L., Fleet operations at fishing of japanese sardine and chub mackerel in the kuril waters in the modern period of high abundance of these species, Izv. Tikhookean. Nauchno-Issled. Inst. Rybn. Khoz. Okeanogr., 2022, vol. 202, no. 2, pp. 414–428. doi: 10.26428/1606-9919-2022-202-414-428

19. Kuznetsov, V.V., Retrospective analysis of large-scale changes in the abundance of sardine ivasi, in Biologicheskiye osnovy dinamiki chislennosti i prognozirovaniya vylova ryb (Biological bases of dynamics of the abundance and forecasting of fish catch), Moscow: VNIRO, 1989, pp. 84–97.

20. Kuznetsova, E. and Belorustseva, S., Trend in catch and current Japanese sardine Sardinops sagax biological status, Rybn. Khoz., 2022, no. 2, pp. 31–37. doi: 10.37663/0131-6184-2022-2-31-37

21. Kuznetsova, E.N., Belorustseva, S.A., and Polyanichko, V.I., Distribution and nutrition Japanese sardine Sardinops sagax and Chub mackerel Scomber japonicas in Pacific waters of Kuril Islands, Vopr. Rybolov., 2021, no. 3, pp. 27–39. doi: 10.36038/0234-2774-2021-22-3-27-39

22. Kuznetsova, N.A. and Shebanova, M.A., Feeding and trophic relations of mass fish species in the Kuril waters of the Pacific Ocean, Izv. Tikhookean. Nauchno-Issled. Inst. Rybn. Khoz. Okeanogr., 2017, vol. 190, pp. 132–145. doi: 10.26428/1606-9919-2017-190-132-145

23. Kun, M.S., Novikov, Yu.V., and Pavlychev, V.P., Oceanological conditions for monitoring products and groups of epipelagic fish in the Kuroshio water system, Sov. J. Mar. Biol., 1978, no. 2, pp. 32–39.

24. Malkin, E.M., Reproduktivnaya i chislennaya izmenchivost’ promyslovykh populyatsii ryb (Reproductive and Numerical Variability of Fish Commercial Populations), Moscow: VNIRO, 1999.

25. Novikov, Yu.V., Antonenko, D.V., Samko, E.V., and Basyuk, E.O., Features of the Far Eastern sardine fishery depending on oceanographic conditions in the Kuril region in 2016–2023, in Mater. 22-y mezhdunar. yezhegod. konf. “Sovremennyye problemy distantsionnogo zondirovaniya Zemli iz kosmosa” (Proc. 22^nd Int. Annual Conf. “Modern problems of remote sensing of the Earth from space”), Moscow: Institut kosmicheskikh issledovaniy Rossiyskoy akademii nauk, 2024, pp. 354.

26. Novikov, Yu.V. and Svirsky, V.G., Long-term changes in the abundance of the main commercial fish in the northwestern Pacific, in Biologicheskiye resursy otkrytogo okeana (Biological resources of the open ocean), Moscow: Nauka, 1987, pp. 189–215.

27. Novikov, Yu.V. and Svirsky, V.G., Long-term changes in the abundance of the main commercial fish in the northwestern Pacific, in Biologicheskiye resursy otkrytogo okeana (Biological resources of the open ocean), Moscow: Nauka, 1987, pp. 189–215.

28. Svirsky, V.G. and Abakumov, A.I., Model approaches to the study of the influence of fecundity and natural mortality on the dynamics of the Pacific sardine population, in Rezul’taty issledovaniya biologicheskikh resursov severo-zapadnoy chasti Tikhogo okeana (Results of the study of biological resources of the northwestern part of the Pacific Ocean), Vladivostok: TINRO, 1989, pp. 44–51.

29. Khoruzhiy, A.A., Somov, A.A., Emelin, P.O., Starovoytov, A.N., and Vanin, N.S., Appearance of chub mackerel and japanese sardine high-yielding generations in the Kuril waters of western North Pacific, Rybn. Khoz., 2015, no. 6, pp. 74–77.

30. Shebanova, M.A. and Kuznetsova, N.A., The state of the plankton community in the north-western Pacific Ocean in June 2021–2022, in Mater. Mezhdunar. nauchno-tekhn. konf. “Ratsional’naya ekspluatatsiya biologicheskikh resursov” (Proc. Int. Sci. Tech. Conf. “Rational exploitation of biological resources”), Vladivostok: Dal’rybvtuz, 2023, pp. 340–347.

31. Shuntov, V.P. and Vasil’kov, V.P., Long-period fluctuations in abundance of North Pacific sardines. Report 1. Population dynamics of the Far Eastern Sardinops sagax melanosticta (Schlegel) and Californian Sardinops sagax caerulea (Girard) sardines in the 20th century, Vopr. Ikhtiol., 1981, vol. 21, no. 6, pp. 963–975.

32. Shuntov, V.P. and Ivanov, O.A., “Unreliable fish” or unreliable hypotheses: what happens to nekton in ocean waters off the Kuril Islands?, Russ. J. Mar. Biol., 2021, vol. 47, no. 7, pp. 519–533. doi: 10.1134/S1063074021070075

33. Shuntov, V.P. and Temnykh, O.S., Tikhookeanskie lososi v morskikh i okeanicheskikh ekosistemakh (Pacific Salmon in Sea and Ocean Ecosystems), Vladivostok: TINRO-Tsentr, 2011, vol. 2.

34. Antonenko, D.V., Novikov, Yu.V., and Basyuk, E.O., Impact of warming on the distribution pattern of the sardine Sardinops melanosticta, in PICES — 2024. The future of PICES: Science for Sustainability in 2030, Honolulu, 2024, pp. 306.

35. Aoki, I. and Murayama, T., Spawning pattern of the Japanese sardine Sardinops melanostictus off southern Kyushu and Shikoku, southwestern Japan, Mar. Ecol. Prog. Ser., 1993, vol. 97, pp. 127–134.

36. Fujinami, Y., Takahashi, M., and Kurota, H., Evaluation of the Precision of Age Determination and Variability in Growth for Japanese Sardine (Sardinops melanostictus), Tsushima Warm Current Subpopulation, Japan Agricultural Research Quarterly, 2024, vol. 58, Iss.1, pp. 65–74. doi: 10.6090/JARQ.58.65

37. Kamimura, Y., Tadokoro, K., Furuichi, S., and Yukami, R., Stronger density-dependent growth of Japanese sardine with lower food availability: Comparison of growth and zooplankton biomass between a historical and current stock-increase period in the western North Pacific, Fish. Res., 2022, vol. 255, pp. 106461. doi: 10.1016/j.fishres.2022.106461

38. Longo, G.C., Minich, J.J., Allsing, N., James, K., Adams-Herrmann, E.S., Larson, W., Hartwick, N., Duong, T., Muhling, B., Michael, T.P. and Craig, M.T., Crossing the Pacific: Genomics Reveals the Presence of Japanese Sardine (Sardinops melanosticta) in the California Current Large Marine Ecosystem, Molecular Ecology, 2024, vol. 33, pp. e17561. doi: 10.1111/mec.17561

39. Nakai, Z., Studies Relevant to Mechanisms Underlying the Fluctuation in the Catch of the Japanese Sardine, Sardinops melanosticta, Jap. J. Ichiyol., 1962, vol. 9, no. 1–6, pp. 1–115. doi: 10.11369/jji1950.9.1

40. Ohshimo, S., Tanaka, H., and Hiyama, Y., Long‐term stock assessment and growth changes of the Japanese sardine (Sardinops melanostictus) in the Sea of Japan and East China Sea from 1953 to 2006, Fish. Oceanogr., 2009, vol. 18, no. 5, pp. 346–358. doi: 10.1111/j.1365-2419.2009.00516.x

41. Sarr, O., Kindong, R., and Tian, S., Knowledge on the Biological and Fisheries Aspects of the Japanese Sardine, Sardinops melanostictus (Schlegel, 1846), J. Mar. Sci. Eng., 2021, vol. 9, no. 12, pp. 1403. doi: 10.3390/jmse9121403

42. Yang, C., Han, H., Zhang, H., Shi, Y., Su, B., Jiang, P., Xiang, D., Sun, Y., and Li, Y., Assessment and management recommendations for the status of Japanese sardine Sardinops melanostictus population in the Northwest Pacific, Ecological Indicators, 2023, vol. 148, 110111. doi: 10.1016/j.ecolind.2023.110111

43. Fricke, R., Eschmeyer, W.N., and Van der Laan, R., Eschmeyer’s catalog of fishes: genera, species, references, 2025. http://researcharchive.calacademy.org/research/ichthyology/catalog/fish-catmain.asp. Electronic version accessed 11 November 2025.

44. Scientific Committee. 9^th Meeting Report. NPFC-2024-SC09-Final Report, Tokyo: Tokyo University of Marine Science and Technology, 2024. (www.npfc.int).