Yellowtail kingfish, from larvae to mature fish – problems and opportunities
Resumen
Yellowtail kingfish (Seriola lalandi) are found in temperate waters of the Pacific and
Indian oceans, off South Africa, Japan, and the US. There are a number of species of
yellowtail in the genus Seriola (Carangidae) (Heine and Kolkovski, 2004). The species
cultured in Australian and New Zealand is known as Seriola lalandi lalandi. In the
Japanese waters, 4 species of Seriola are recognized (Nakabo, 1993) and three species
are cultured. (Nakada, 2000). Japanese species includes S. lalandi (called HIRAMASA in
Japanese), S. quinqueradiata (called HAMACHI and BURI for the young and adult
stages, respectively) and S. dumerili (KANPACHI) (Poortenaar et al., 2001, Nakada,
2000, Nakabo, 1993). Another notable species that gain interest as aquaculture
candidate is the pacific yellowtail S. mazatlana (Benetti, 1997).
From 1979 through 1998, about 150,000 tonnes of S. quinqueradiata were produced
annually in Japan (Nakada, 2000). The culture industries for yellowtail kingfish in
Australia and New Zealand are relatively small compared to Japan and commenced in
the early 2000.
Descargas
Citas
Anraku, M. and Azeta, M. 1965. The feeding habits of larvae and juveniles of yellowtail, Seriola
quinqueradiata Temminck et Schlegel, associated with floating seaweeds. Bulletin of the Seikai
Regional Fisheries Research Laboratory 33: 14-15. (in Japanese)
Arakawa, T., Ishizaki, Y., Chuda, H., Shimizu, K., Arimoto, M., and Takeuchi, T. 2002. Comparison of
lipid classes and fatty acid compositions between hatchery reared and wild caught yellowtail
Seriola quinqueradiata juveniles. Nippon Suisan Gakkaishi 68: 374-381. (in Japanese)
Benetti, D.D. 1997. Spawning and larval husbandry of flounder (Paralichthys woolmani) and Pacific
yellowtail (Seriola mazatlana), new candidate species for aquaculture. Aquaculture 155: 307-
Benetti, D.D. 2000. Aquaculture of pelagic marine fish: I. Yellowtail amberjacks (Seriola
quinqueradiata, S. lalandi, S. dumerili and S. mazatlana). The Advocate, April, pp. 20.
Chuda, H., Imayoshi, T., Arakawa, T., and Matsuyama, M. 2001. Hormonal treatment for induction of
oocyte maturation and ovulation in cultured yellowtail, Seriola quinqueradiata. Sci. Bull. Fac.
Agric. Kyushu University 55: 169-177.
Ebisu, R. and Tachihara, K. 1993. Mortality caused by cannibalism in seed production of gold striped
amberjack Seriola lalandi. Bulletin Nagasaki Prefecture Institute Fisheries 19: 1-7 (in
Japanese).
Fishery Journal. 1989. Yamaha Motor Co., Ltd., Shizuoka, Japan. No. 29 (Japan).
Fukuhara, O., Nakagawa, T.and Fukunaga, T. 1986. Larval and juvenile development of yellowtail reared
in the laboratory. Nippon Suisan Gakkaishi 52: 2091-2098.
Furuita, H., Takeuchi, T., Watanabe, T., Fujimoto, H., Sekiya, S., and Imaizumi, K. 1996. Requirements
of larval yellowtail for eicosapentaenoic acid, docosahexanoic acid, and n-3 highly unsaturated
fatty acid. Fisheries Science 62(3): 372-379.
Gillanders, B.M., Ferrell, D.J., and Andrew, N.L. 1999a. Aging methods for yellowtail kingfish (Seriola
lalandi), and results from age- and size-based growth models. Fishery Bulletin 97: 812-827.
Gillanders, B.M., Ferrell, D.J., and Andrew, N.L. 1999b. Size at maturity and seasonal changes in gonad
activity of yellowtail kingfish (Seriola lalandi; Carangidae) in New South Wales, Australia. N.
Z. J. Mar. Freshwater Res. 33: 457-468.
Jover, M., Garcia-Gomez, A., Tomas, A., De la Gandara, F., and Perez, L. 1999. Growth of
Mediterranean yellowtail (Seriola dumerili) fed extruded diets containing different levels of
protein and lipid. Aquaculture 179: 25-33.
Heine, J. and Kolkovski, S. 2004. Potential aquaculture species for Western Australia, yellowtail kingfish
Seriola lalandi. Fish Res. Rep., department of Fisheries, western Australia.
Honma, A. 1993. Aquaculture in Japan. Japan FAO Association, Tokyo, pp. 98.
Kolkovski, S. Czesny, S. Yackey, C., Moreau, R., Cihla, F., Mahan, D. and Dabrowski, K. 2000. The
effect of vitamins C and E in (n-3) highly unsaturated fatty acids-enriched Artemia nauplii on
growth, survival and stress resistance of fresh water walleye Stizostediom vitreum larvae.
Aquaculture Nutrition 6: 199-206.
Kolkovski, S and Kolkovski, J. 2004. Live feed enrichments and broodstock additives – ‘tailor made’ to
requirements. 11th International symposium on Nutrition and Feeding in Fish, Phuket, Thailand.
Pp. 256.
Kolkovski, S. 2004. Evaluation of Yellowtail Kingfish (Seriola lalandi) grow out in land-based and seacage
systems and broodstock management. Report submitted to the Aquaculture Development
Council of Western Australia.
Kolkovski, S., Curnow, J. and King, J. 2004. Intensive rearing system for fish larvae research I. Marine
larval rearing system. Aquaculture Engineering 295-308.
Merchie, G., Lavens, P., Dhert, P., Dehasque, M., Nelis, H., De Leenheer, A. and Sorgeloos, P. 1995.
Variation of ascorbic acid content in different live food organisms. Aquaculture 134: 325-337.
Marino, G., Mandich, A., Massari, A., Andaloro, F., Porrello, S., Finoia, M.G., and Cevasco, F. 1995.
Aspects of reproductive biology of the Mediterranean amberjack (Seriola dumerili Risso) during
the spawning period. J. Applied Ichthyology 11: 9-24.
Masuda R, Takeuchi T, Tsukamoto K, Sato S, Shimizu K and Imaizumi K. 1999. Incorporation of dietary
docosahexaenoic acid into the central nervous system in the yellowtail Seriola quinqueradiata.
Brain Behav. Evol. 53: 173-179.
Masuda R, Takeuchi T, Tsukamoto K, Ishizaki Y, Kanematsu M and Imaizumi K. 1998. Critical
involvement of dietary docosahexaenoic acid in the ontogeny of schooling behaviour in the
yellowtail. J. Fish Biol. 53: 471-484.
Mizuta, Y. 1981. On the seedling production of Buri, Seriola quinqueradiata. Saibai Gyogyo Gijyutsu
Kaihatsu Kenkyu (Technical Reports of Japanese Sea Ranching Programs) 10: 85-97 (in
Japanese).
Mushiake, K., Arai, S., Matsumoto, A., Shimma, H., and Hasegawa, I. 1993. Artificial insemination from
year-old cultured yellowtail fed with moist pellets. Nippon Suisan Gakkaishi 59: 1721-1726.
(in Japanese)
Mushiake, K., Kawano, K., Kobayashi, T., and Yamasaki, T. 1998. Advanced spawning in yellowtail,
Seriola quinqueradiata, by manipulations of photoperiod and water temperature. Fisheries
Science 64(5): 727-731.
Nakabo, T. 1993. Fishes of Japan with Pictorial Keys to the Species. Tokai University Press. Tokyo.
pp.1474. (in Japanese)
Nakada, M. 2000. Yellowtail and related species culture. In: Stickney, R.R. (Ed.). 2000. Encyclopedia
of Aquaculture. John Wiley & Sons, Inc. New York, NY. pp. 1007-1036.
Nugroho, E, Ferrell, D.J., Smith, P., and Taniguchi, N. 2001. Genetic divergence of kingfish from Japan,
Australia and New Zealand inferred by microsatellite DNA and mitochondrial DNA control
region markers. Fisheries Science 67: 843-850.
Ochiai, A., and Tanaka, M. Ichthyology (II). Kouseisyakouseikaku, Tokyo, pp.1139. (in Japanese)
Ohara, E., Nishimura, T., Sakamoto, T., Nagakura, Y., Mushiake K., and Okamoto, N., 2003. Isolation
and characterization of microsatellite loci from yellowtail Seriola quinqueradiata and crossspecies
amplification within the genus Seriola. Molecular Ecology Notes, 3: 390-391.
Primary Industries and Resources SA (PIRSA). 2002. Yellowtail kingfish aquaculture in SA.
www.pir.sa.gov.au
Poortenaar, C.W., Hooker, S., and Sharp, N. 1999. Where are we with kingfish aquaculture?
Aquaculture Update, Autumn/Winter, pp. 9-10.
Poortenaar, C.W., Hooker, S.H., and Sharp, N. 2001. Assessment of yellowtail kingfish (Seriola lalandi
lalandi) reproductive physiology, as a basis for aquaculture development. Aquaculture 201:
-286.
Poortenaar, C., Hooker, S., and Sharp, N. 2000. Kingfish aquaculture research in New Zealand.
Austasia Aquaculture Dec. 1999/Jan. 2000: 45-46.
Sakakura, Y. and Tsukamoto, K. 1996. Onset and development of cannibalistic behaviour in early life
stages of yellowtail. J. Fish Biology 48: 16-29.
Sakakura, Y. and Tsukamoto, K. 1997a. Age composition in the schools of juvenile yellowtail, Seriola
quinqueradiata, associated with drifting seaweeds in the East China Sea. Fisheries Science 63:
-41.
Sakakura, Y. and Tsukamoto, K. 1997b. Effects of water temperature and light intensity on aggressive
behaviour in the juvenile yellowtails. Fisheries Science 63(1): 42-45.
Sakakura, Y. and Tsukamoto, K. 1998. Effects of density, starvation and size differences on aggressive
behaviour in juvenile yellowtails (Seriola quinqueradiata). J. Applied Ichthyology 14: 9-13.
Sakakura, Y. and Tsukamoto, K. (1999). Ontogeny of aggressive behaviour in schools of yellowtail
Seriola quinqueradiata. Environmental Biology of Fishes 56: 231-242.
Sharp, N., Poortenaar, C., and Diggles, B. 2000. Controlling monogenean parasites in kingfish
aquaculture. Proceedings of New Zealand Marine Science Society Conference.
Sharp, N., Poortenaar, C., and Diggles, B. 2001. Monogenean parasites on NZ kingfish. Fish Farming
International, Aug.:32.
Shiozawa, S., Takeuchi, H., and Hirokawa, J. 2003. Improved seed production techniques for the
amberjack, Seriola dumerili. Saibai Giken 31: 11-18. (in Japanese).
Smith, A. K. 1987. Genetic variation and dispersal of the yellowtail kingfish, Seriola lalandi, from New
South Wales water. Honours thesis, University of New South Wales, Australia. 46 pp.
Takeuchi, T., Shiina, Y., Watanabe, T., Sekiya, S., and Imaisumi, K. 1992. Suitable protein and lipid
levels in diet for fingerlings of yellowtail. Nippon Suisan Gakkaishi 58: 1333-1339.
Takashi, H. and Tetsao, T. 1979. Fisheries in Japan – Jack Mackerel & Yellowtail. Japan Marine Products,
Photo Materials Association. Pp. 200.
Verakunpiriya, V., Watanabe, K., Mushiake, K., Kawano, K., Kobayashi, T., Hasegawa, I., Kiron, V.,
Satoh, S., and Watanabe, T. 1997a. Effect of krill meat supplementation in soft-dry pellets on
spawning and quality of egg of yellowtail. Fisheries Science 63(3): 433-439.
Verakunpiriya, V., Mushiake, K., Kawano, K., and Watanabe, T. 1997b. Supplemental effect of
astaxanthin in broodstock diets on the quality of yellowtail eggs. Fisheries Science 63: 816-823.
Watanabe, T., Sakamoto, H., Abiru, M., and Yamashita, J. 1991. Development of a new type of dry
pellet for yellowtail. Nippon Suisan Gakkaishi 49: 1411-1415.
Yamazaki, H., Shiozawa, S., and Fujimoto, H. 2002. Present status of seedling production of yellowtail at
the Japan Sea Farming Association. Suisanzoshoku 50: 503-506. (in Japanese).
