Challenges in Developing Successful Formulated Feed for Culture of Larval Fish and Crustaceans
Resumen
Expansion and production consistency in commercial farming of aquatic species,
particularly species of marine fish, are limited by the lack of successful replacement of live
food with formulated feeds. Lack of progress may be due to insurmountable objectives
created by the persistence of several biases about what constitutes the proper formulated
feed and conditions for larval culture. Poor response to larval diets may have nothing to do
with nutrient composition, but rather the result of incompatible culture conditions and
unsatisfactory presentation of the diet.
Recognition of the complexity of the ontogeny of nutrient physiology in larvae must be
tempered with the need to strive for simplicity in formulation and manufacture. Technical
success must be based upon the acceptance of compromise whereby flexibility will ensure
progress.
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Bautista M. N., Millamena O. M., Kanazawa, A., (1989) Use of kappa-carrageenan microbound diet(CMBD)
as feed for Penaeus japonicus larvae. Marine Biology 103, 169-173.
Blair T., Castell J., Neil S., D'Abramo L., Cahu C., Harmon P., Ogunmoye, K., 2002. Evaluation of
microdiets versus live feeds on growth, survival and fatty acid composition of larval haddock
(Melangrammus aeglefinus). Proceedings of the Nutrition and Feeding in Fish Symposium, in press.
Cahu C. L., Zambonino Infante, J. L., 1997. Is the digestive capacity of marine fish larvae sufficient for
compound diet feeding? Aquaculture International 5, 151-160.
Chang E. S., Conklin, D. E., 1983 Lobster (Homarus) hatchery techniques. In: Handbook of Mariculture,
Vol.1 Crustacean Aquaculture (ed. by J. P. McVey), pp. 271-275. CRC Press, Boca Raton, FL, USA.
Clawson, J. A., Lowell, R. T., 1992. Improvement of nutritional value of Artemia for hybrid striped
bass/white bass (Morone saxatilis X M. chrysops) larvae by n-3 HUFA enrichment of nauplii with
menhaden oil. Aquaculture 108, 125-134.
D'Abramo, L. R., 1979. Dietary fatty acid and temperature effects on the productivity of the cladoceran
Moina macrocopa. Biological Bulletin 157, 234-248.
Dall, W., Moriarty, D. J. W., 1983. Functional aspects of nutrition and digestion. In: The Biology of
Crustacea, Volume 5, Internal anatomy and physiological regulation (ed. By L.H. Mantel) Academic
Press.
Fernandez-Diaz C., Pascual, E., Yufera, M., 1994. Feeding behavior and prey selection size of gilthead sea
bream, Sparus aurata, larvae fed on inert and live food. Marine Biology 118, 323-328.
Garcia-Ortega, A., Verreth, J., Coutteau, P., Segner, H., Huisman, E. A., Sorgeloos P., 1998. Biochemical and
enzymatic characterization of decapsulated cysts and nauplii of the brine shrimp Artemia at different
developmental stages. Aquaculture 161, 501-514.
Jones, D. A., Yule, A. B., Holland, D. L., 1997. Larval nutrition. In: Crustacean Nutrition (ed. By L. R.
D'Abramo, D.E. Conklin & D.M. Akiyama), World Aquaculture Society.
Jones, D. A., Kanazawa, A., Rahman, S. A., 1979. Studies on the presentation of artificial diets for rearing the
larvae of Penaeus japonicus Bate. Aquaculture 17, 33-43.
Kamarudin, M. S., Jones, D. A., Vay, L., Abidin, A. Z., 1994. Ontogenetic changes in digestive enzyme
activity during larval development of Macrobrachium rosenbergii. Aquaculture 123, 323-333.
Kolkovski, S., Tandler, A., Izquierdo, M. S., 1997. Effects of live food and dietary digestive enzymes on the
efficiency of microdiets for seabass (Dicentrarchus labrax) larva. Aquaculture 148, 313-332.
Kolkovski, S., Tandler, A., Kissil, G. W., Gertler, A., 1993. The effect of dietary exogenous digestive
enzymes on ingestion, assimilation, growth, and survival of gilthead seabream (Sparus aurata,
Sparidae, Linneaus) larvae. Fish Physiology and Biochemistry 12, 203-209.
Koshio, S., Kanazawa, A., Teshima, S., Castell, J. D., 1989. Nutritive evaluation of crab protein for larval
Penaeus japonicus fed microparticulate diets. Aquaculture 81, 145-154.
Kovalenko, E. E., D'Abramo, L. R., Ohs, C. L., Buddington, R. K., 2002. A successful microbound diet for
the larval culture of freshwater prawn (Macrobrachium rosenbergii). Aquaculture 210, 385-395.
Kumlu, M., Jones, D. A., 1995. The effect of live and artificial diets on growth, survival, and trypsin activity
in larvae of Penaeus indicus. Journal of the World Aquaculture Society 26(4), 406-415.
Kurmaly, K., Jones D.A., Yule, A. B., 1990. Acceptability and digestion of diets fed to larval stages of
Homarus gammarus and their role of dietary conditioning behaviour. Marine Biology 106, 181-190.
Lovett, D. L., Felder, D. L., 1989. Ontogeny of gut morphology in the white shrimp Penaeus setiferus
(Decapoda,Penaeidae). Journal of Morphology 201, 253-272.
Lovett, D. L., Felder, D. L., 1990. Ontogenetic change in digestive enzyme activity of larval and postlarval
white shrimp Penaeus setiferus (Crustacea, Decapoda, Penaeidae). Biological Bulletin 178, 144-159
Munilla-Moran, R., Stark, J. R., Barbour, A., 1990. The role of exogenous enzymes on the digestion of the
cultured turbot larvae, Scophthalmus maximus L. Aquaculture 88, 337-350.
Ohs, C. L., D'Abramo, L. R., Buddington, R. K., Robinette, H. R., Roethke, J. M., 1998. Evaluation of a sprydried
artificial diet for larval culture of freshwater prawn Macrobrachium rosenbergii, and striped
bass, Morone saxatilis. Aquaculture Nutrition 4,73-82.
Pinn, E. H., Rogerson, A., Atkinson, R. J. A., 1997. Microbial flora associated with the digestive system of
Upogebia stellata (Crustacea: Decapoda: Thalassinidea). Journal of Marine Biology Association UK
(4), 1083-1096 (cited from an abstract).
Rabe, J., Brown, J. A., 2000. A pulse feeding strategy for rearing larval fish: an experiment with yellowtail
flounder. Aquaculture 191, 289-302
Tucker, J. W. Jr., 1998. Marine fish culture. Kluwer Academic Publishers, Boston, 750 p.
Teshima, S., Ishikawa, M., Koshio, S., 1993. Recent developments in nutrition and microparticulate diets of
larval prawns. The Israeli Journal of Aquaculture- Bamidgeh 45(4), 175-184
Teshima, S., Kanazawa, A., 1983. Effects of several factors on growth and survival of the prawn larvae reared
with microparticulate diets. Bulletin of the Japanese Society of Scientific Fisheries 49, 1893-1896.
Zambonino Infante, J. L., Cahu, C. L., 1994a. Development and response to a diet change of some digestive
enzymes in sea bass (Dicentrarchus labrax) larvae. Fish Physiology and Biochemistry 12, 399-408.
Zambonino Infante, J. L., Cahu, C. L., 1994b. Influence of diet on pepsin and some pancreatic enzymes in sea
bass (Dicentrarchus labrax) larvae. Comparative Biochemistry and Physiology 109A, 209-212.
