Nutrición y alimentación de larvas de peces marinos

Authors

  • R Civera-Cerecedo Laboratorio de Nutrición Acuícola. Centro de Investigaciones Biológicas del Noroeste
  • C.A. Alvarez-González Universidad Juárez Autónoma de Tabasco,
  • F.J. Moyano-López Universidad de Almería.

Keywords:

nutrición, alimentación, larvicultura, peces marinos

Abstract

Es bien conocido que en el ambiente, la supervivencia de las larvas presenta altas
fluctuaciones, debido a múltiples factores que provocan valores de supervivencia desde
10% hasta 0.1% (Hempel, 1979). Estos factores se pueden dividir en: 1) factores externos y
2) factores internos. 1) Los factores externos se pueden subdividir en dos grupos: a) los
físicos, como la temperatura, la iluminación, el flujo de agua, corrientes, etc., y b) los
químicos, como el oxígeno disuelto, el amonio, la salinidad, el pH, etc., que pueden ser
considerados algunos de los más limitantes para la supervivencia y crecimiento. 2) En el
caso de los factores internos, pueden ser subdivididos en cuatro tipos: a) los genéticos, los
cuales son conferidos por los padres a través del material heredado, b) los etológicos, que
se relacionan directamente con el comportamiento alimenticio y procesos de escape para
evitar ser capturada, c) los biológicos, donde la competencia y depredación rigen su
supervivencia, y d) los nutricionales, los cuales conferirán a las larvas la energía necesaria
para mantener su metabolismo, crecer y asegurar su supervivencia.

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References

Abatsopoulos, T.J., Triantaphyllidis, G.V., Beardmore, J.A. & Sorgeloos, P. (1997) Cyst membrane protein

composition as a discriminant character in the genus Artemia (International Study on Artemia LV). J. Mar.

Biol. Ass. U.K. 265-268.

Adron, J.W., Blair, A. & Cowey, C.B. (1974) Rearing of plaice (Pleuronectes platessa) larvae to

metamorphosis using artificial diet. Fish. Bull. 72, 353–357.

Alarcón, F.J. (1997) Procesos digestivos en peces marinos: Caracterización y aplicaciones prácticas. Ph.D.

Thesis, Universidad de Almería, Spain. 101 pp.

Alliot, E., Pastoureaud, A. & Trellur, J. (1977) Evolution des activitiés enzymatiques dans le tube digestif au

cours de la vie larvaire du bar (Dicentrarchus labrax). Variations des protéinogrammes et des

zymogrammes. Colloq. Int. Cent. Nat. Rech. Sci. 4, 85-91.

Anderson, R.J., Kienholz, E.W. & Flickinger, S.A. (1981) Protein requirements of smallmouth bass and

largemouth bass. J. Nutr. 11, 557-561.

Appelbaum, S. & Van Damme, P. (1988) The feasibility of using exclusively dry diet for rearing of Israeli

Ž.Clarias gariepinus Burchell larvae and fry. J. Appl. Ichthyol. 4, 105–110.

Balon, E.K. (1975) Terminology of intervals in fish development. J. Fish. Res. Bd. Canada, 32, 1663-1670.

Balon, E.K. (1979) The juvenilization process in phylogeny and the altricial to precocial forms in the

ontogeny of fishes. Env. Biol. Fish. 4, 193-198.

Balon, E.K. (1981) Saltatory processes and altricial to precocial forms in the ontogeny of fishes. Amer. Zool.

, 573-596.

Balon, E.K. (1984) Reflections on some decisive events in the early life of fishes. Trans. Am. Fish. Soc. 113,

-185.

Barnabé, G. (1976) Elevage larvaire du loup (Dicentarchus labrax L.; Pisces, Serranidae) l’aide d’aliment sec

composé. Aquaculture 9, 237–252.

Barrington, E.J.W. (1957) The alimentary canal and digestion. In: The Physiology of Fishes. (Ed. by M.E.

Brow). pp. 105-161. Vol 1, Academic Press, NY.

Barrows, F.T. (2000) Larval feed production. Aqua Feed 2, 15-20.

Baskerville-Bridges, B. & Kling, L.J. (2000) Early weaning of Atlantic cod Gadus morhua larvae onto a

microparticulate diet. Aquaculture 189, 109-117.

Bdui, S. (1988) Diccionario de tecnología de los alimentos. Editorial Alhambra Mexicana, México, D.F. 300

pp.

Bell, M.V., Mc Evoy, L.A., M. & Navarro, J.R. (1996) Deficit of dicosahexanoyl phospholipid in eyes of

larval sea bass fed an essential fatty acid deficient diet. J. Fish. Biol. 49, 941-952.

Ben-Atia, I., Fine, M., Tandler, A., Funkenstein, B., Maurice, S., Cavari, B. & Gertler, A. (1999) Preparation

of recombinant gilthead seabream (Sparus aurata) growth hormone and its use for stimulation of larvae

growth by oral administration. Gen. Comp. Endocr. 113, 155–164

Bengston, B.-E., Léger, P. & Sorgeloos, P. (1991) Use of Artemia as a food source for aquaculture. In:

Artemia Biology. (Ed. by R.A. Brown, P. Sorgeloos & C.N.A. Trotman). pp. 255-285. CRC Press, Boca

Raton, Florida.

Bessonart, M., Izquierdo, M.S., Salhi, M., Hernandez-Cruz, C.M., Gonzalez, M.M. & Fernández-Palacios, H.

(1999) Effect of dietary arachidonic acid levels on growth and survival of gilthead sea bream (Sparus

aurata L.) larvae. Aquaculture 179, 265–275.

Bisbal, G.A. & Bengston, D.A. (1995) Development of the digestive tract in larval summer flounder. J. Fish

Biol. 47, 277-291.

Blaxter, J.H.S. & Hempel, G. (1961) Biologische Beobachtungen bei der Aufzucht von Herringsbrut. Helgol.

Wiss. Meeresunters. 7, 260-283.

Blaxter, J.H.S. (1965) The feeding of herring larvae and their ecology in relation to feeding. Calif. Coop.

Oceanic. Fish. Invest. Rep. 10, 79-88.

Blaxter, J.H.S. (1969) Development of eggs and larvae. In: Fish Physiology. (Ed. by W.S. Hoar & D.J.

Randall). pp. 178-252. Vol. III, Academic Press, New York.

Blaxter, J.H.S. & Hunter, J.R. (1982) Rhe biology of clupeoid fishes. Adv. Mar. Biol. 28, 211-240.

Blaxter, J.H.S. (1986) Development of sense organs and behaviour of teleost larvae with special reference to

feeding and predator avoidance. Trans. Am. Fish. Soc. 115, 98-114.

Blaxter, J.H.S. (1988) Pattern and variety in development. In: Fish Physiology. (Ed. by Hoar, W.S. & Randall,

D.J.). pp. 1-58. Vol XIA. Academic Press, San Diego.

Boehlert, G.W. (1984) Scanning electron microscopy. In: Ontogeny and systematics of fishes. (Ed. by H.G.

Moser, W.J. Richards, D.M. Cohen, M.P. Fahay, A.W. Kendall & S.L. Richardson). pp. 43-48. Amer. Soc.

Ichthyol. Herpetol. Spec. Publ. 1, Lawrence.

Boehlert, G.W & Yoklavich, M.M. (1984a) Carbon assimilation as a function of ingestion rate in larval

Pacific herring, Clupea harengus pallasi Valenciennes. J. Exp. Mar. Biol. Ecol. 79, 251-262,

Boehlert, G.W. & Yoklavich, M.M. (1984b). Reproduction, embryonic energetics, and the maternal-fetal

relationship in the viviparous genus Sebastes. Biol. Bull. 167, 354-370,

Brett, J.R. & Groves, T.D.D. (1979) Physiological energetics. In: Fish Physiology. (Ed. by W.S. Hoar, D.J.

Randall & J.R. Brett). pp. 279-352. Vol. 8. Academic Press, New York.

Brinkmeyer, R.L., & Holt, G.J. (1995) Response of red drum larvae to graded levels of menhaden oil in

semipurified microparticulate diets. Prog. Fish-Cult. 57, 30–36.

Buckley, L.J. & Dillmann, D.W. (1982) Nitrogen utilization of larval summer flounder, Paralichtys dentatus

(Linnaeus), J. Exp. Mar. Biol. Ecol. 59, 243-256.

Buddington, R.K. & Diamond, J.M. (1989) Ontogenic development of intestinal nutrients transporters. A.

Rev. Physiol. 51, 601-619.

Cahu, C.L. & Zambonino-Infante, J.L. (1994) Early weaning of sea bass (Dicentrarchus labrax) larvae with a

compound diet: Effect on digestive enzymes. Comp. Biochem. Physiol. 109A, 213-222.

Cahu, C.L. & Zambonino-Infante, J.L. (1997) Is the digestive capacity of marine fish larvae sufficient for

compound diet feeding? Aquacult. Int. 5, 151–160.

Cahu, C.L., Zambonino-Infante, J.L., Quazuguel, P. & Le Gall, M-M. (1999) Protein hydrolysate vs. fish

meal in compound diet for 10-day old sea bass Dicentrarchus labrax larvae. Aquaculture 171, 109-119.

Carvalho, A.P. Ferreira, M.L., Oliva Teles, A. & Bergot, P. (1995) Utilization of a fish protein hydrolisate in

diets for sea bass (Dicentrarchus labrax L.) post-larvae. In: Actas del V Congresso Nacional de

Acuicultura (Ed. by F. Castelló A. Orsay & C. Reig). pp. 415-419. Publ. Universitat de Barcelona.

Castell, J.D., Bell, J.G., Tocher, D.R. & Sargent, J.R. (1994) Effects of purified diets containing different

combinations of arachidonic and docosahexaenoic acid on survival, growth and fatty acid composition of

juvenile rodaballo (Scophthalmus maximus) Aquaculture 155, 149–164.

Cetta, C.M. & Capuzzo, J.M. (1982) Physiological and biochemical aspects of embryonic and larval

development of the winter flounder, Pseudopleuronectes americanus. Mar. Biol. 71, 327-337.

Chan, C.B. & Hale, E. (1992) Effect of somatostatin on intragastric pressure and smooth muscle contractility

of the rainbow trout Oncorhynchus mykiss Walbaum. J. Fish Biol. 40, 545–556.

Chatterjee, I.B. (1973) Evolution and biosynthesis of ascorbic acid. Science 182, 1271-1272.

Checkley, D.M. (1984) Relation of growth to ingestion for larvae of Atlantic herring Clupea harengus and

other fish. Mar. Ecol. Prog. Ser. 18, 215-224.

Chitty, N. (1981) Behavioral observation of feeding larvae of bay anchovy, Anchoa mitchilli, and bigeye

anchovy, Anchoa lamprotaenia. Rapp. P.-V. Reun. Cons. Int. Explor. Mer 178, 320-321.

Conceição, L.E.C., Houlihan, D.F. & Verreth, J.A.J. (1997) Fast growth, protein turnover and costs of protein

metabolism in yolk-sac larvae of the African catfish (Clarias gariepinus). Fish Physiol. Biochem. 16, 291-

Conover, R. J. & Francis, V. (1973) The use of radioactive isotopes to measure the transfer of materials in

aquatic food chains. Mar. Biol. 10, 272-283.

Conover, R.J. 1978. Transformation of organic matter. In: Marine Ecology. (Ed. by O. Kinne). pp. 221- 500.

Vol. 4, Wiley. New York.

Cousin, J.C.B., Baudin-Laurencin, F. & Gabaudan, J. (1987) Ontogeny of enzymatic activities in fed and

fasting rodaballo, Scophthalmus maximus L. J. Fish Biol. 30, 15–33.

Coutteau, P. (1996) Determination of fatty acid requeriments during weaning and first outgrowin of marine

fish using a standard diet. Procedings of a workshop on fish and mollusc larviculture improvement of the

commercial production of marine aquaculture species, Santiago, Chile, Impresora Creces.

Coutteau, P., Van Stappen, G. & Sorgeloos, P. (1996) A standard experimental diet for the study of fatty acid

requirements of weaning and first ongrowing stages of the European sea bass Dicentrarchus labrax L.

comparison of extruded and extruded/coated diets. Arch. Anim. Nutr. 49, 49-59.

Coutteau, P., Geurden, I., Camara, M.R., Bergot, P. & Sorgeloos, P. (1997) Review on the dietary effects of

phospholipids in fish and crustacean larviculture. Aquaculture 155, 149–164.

Cowey, C.B. & Sargent, J.R. (1979) Nutrition. In: Fish Physiology. (Ed. by W.S. Hoar, D.J. Randall & J.R.

Brett). pp. 1-69. Vol. III, Academic Press, New York.

Crane, R.K. (1975) A digestive-absorptive surface as illustrated by the intestinal cell brush border. Trans.

Amer. Mlicrosc. Soc. 94, 529-544.

Cunha, I. (1996) Comportamiento trofico y fisiologýa energetica de las larvas de rodaballo (Scophthalmus

maximus L.) en condiciones de cultivo. Ph.D. Thesis, University of Santiago de Compostela, Spain, 283

pp.

Cunha, I. & Planas, M. (1999) Optimal prey size for early rodaballo larvae Scophthalmus maximus L. based

on mouth and ingested prey size. Aquaculture 175, 103-110.

Dabrowski, K. (1982) Proteolityc enzyme activity decline in starving fish alevins and larvae. Env. Biol. Fish.

, 73-76.

Dabrowski, K. & Rusiecki, M. (1983). Content of total and free amino acid in zooplanktonic food of fish

larvae. Aquaculture 30, 31-42.

Dabrowski, K. (1984) The feeding of fish larvae: present -state of the art- and perspectives. Reprod. Nutr.

Develop. 24, 807-833.

Dabrowski, K. & Luczynski, M. (1984) Utilization of body stores in embryonated ova and larvae of two

coregonid species Coregonus lavaretus L. and C. albula L. Comp. Biochem. Physiol. 79A, 329-334.

Dabrowski, K. (1990) Ascorbic acid status in the early life of whitefish (Coregonus lavaretus L.).

Aquaculture 84, 61-70.

Dabrowski, K., Culver, D.A., Brooks, C.L., Boss, A.C., Binkowski, F.P., Yeo, S.E. & Baloguin, A.M. (1991)

Biochemical aspects of the early life history of yellow perch (Perca flavescens). In: Fish nutrition in

practice. (Ed. by Kaushik, S.J. & Luquet, P.). pp. 531-539. Biarritz, Francia.

Dedi, J., Takeuchi, T., Seikai, T. & Watanabe, T. (1995) Hypervitaminosis and safe levels of vitamin A for

larval flounder (Paralichthys olivaceus) fed Artemia nauplii. Aquaculture 133, 135-146.

Dendrinos, P. & Thorpe, J.P. (1987) Experiments on the artificial regulation of the amino acid and fatty acid

content in food organism to meet the assessed nutritional requirements of larval, post-larval and juvenile

dover sole (Solea solea, L.) Aquaculture 61, 121-154.

Deplano, M., Connes, R., Díaz, J.P. & Paris, J. (1989) Intestinal steatosis in the farm reared seabass,

Dicentrarchus labrax. Dis. Aquat. Org. 6, 121–130.

Deplano, M., Díaz, J.P., Connes, R., Kentouri-Divanach, M. & Cavalier, F. (1991) Appearance of lipidabsorption

capacities in larvae of the sea bass Dicentrarchus labrax during transition to the exotrophic

phase. Mar. Biol. 108, 361–371.

Devillers, C. (1961) Structural and dynamic aspects of the development of the teleostean egg. Adv. Morphol.

, 379-428.

Díaz, R.J., Mani-Ponset, L., Guyot, E. & Connes, R. (1994) Assimilation of dissolved glucose freom sea

water by the seabass Dicentrarchus labrax and the sea bream Sparus aurata. Mar. Biol. 120, 181-186.

Díaz, J.P., Mani-Poset, L., Blasco, C. & Connes, R. (2002) Cytological detection of the main phases of lipid

metabolism during early post-embryonic development in three telost species: Dicentrarchus labrax,

Sparus aurata and Stizostedion lucioperca. Aquat. Living Resour. 15, 169-178.

Doi, M., Toledo, J.D., Golez, M.S.N., de los Santos, M. & Ohno, A. (1997) Preliminary investigation of

feeding performance of larvae of early red-spotted grouper, Epinephelus coioides, reared with mixed

zooplankton. Hydrobiologia 358, 259–263.

Douglas, S.E., Gawlicka, A., Mandla, S. & Gallant, J.W. (1999) Ontogeny of the stomach in winter flounder:

characterization and expression of the pepsinogen and proton pump genes and determination of pepsin

activity. J. Fish Biol. 55, 897–915.

Doving, K.B. & Knutsen, J.A. (1993) Chemokinesis in marine fish larvae. In: Physiological and Biochemical

Aspects of Fish Development. (Ed. by B.T. Walther & H.J. Fhyn) pp. 139-145. Univ. Bergen, Norway.

Duray, M.N., Alpasan, L.G. & Estudillo C.B. (1996) Improved hatchery rearing of mangrove red snapper

Lutjanus argentimaculatus, in large tanks with small rotifers (Brachionus plicatilis) and Artemia.

Bamidegh. 48, 123-132.

Ehrlich, K.F. (1974) Chemical changes during growth and starvation of herring larvae. In: The early life

history of fish. (Ed. by J.H.S. Blaxter). pp. 301-323. Springer-Verlag, New York.

Escaffre, A.M., Zambonino-Infante, J.L., Cahu, C.L., Mambrini, M., Bergot, P. & Kaushik, S.J. (1997)

Nutritional value of soy protein concentrate for larvae of common carp (Cyprinus carpio) based on growth

performance and digestive enzyme activities. Aquaculture 153, 60-83.

Estévez, A. (1996) Effects of lipids and vitamin A on pigmentation success of flatfish. Ph.D. Thesis,

University of Kagoshima, Japan, 149 pp.

Estévez, A., Izhikawa, M. & Kanazawa, A. (1997) Effects of arachidonic acid on pigmentation and fatty acid

composition of Japanese flounder, Paralychthys olivaceous (Temmink and Schlegel). Aquacult. Res. 28,

–289.

Fange, R. & Grove, D. (1979) Digestion. In: Fish Physiology. (Ed. by W.S. Hoar, D.J. Randall & J.R. Brett).

pp. 161-260. Vol. 8, Academic Press. New York.

Fernández-Díaz, C., Pascual, E. & Yúfera, M. (1994) Feeding behaviour and prey siza selection of githead

seabream, Sparus aurata, larvae fed on inert and live food. Mar. Biol. 118, 823-828.

Fernández-Díaz, H. & Yúfera, M. (1997) Detecting growth in gilthead seabream, Sparus aurata L., larvae fed

microparticules. Aquaculture 153, 93-102

Fernández-Palacios, H., Montero, D., Socorro, J., Izquierdo, M.S. & Vergara, J.M. (1994) First studies on

spawning, embryonic and larval development of Dentex gibbosus (Rafinesque, 1810) (Osteichthyes,

Sparidae) under controlled conditions. Aquaculture 122, 63-73.

Ferraris, R.P. & Ahearn, G.A. (1984) Sugar and amino acid transport in fish intestine. Comp. Physiol. 77A,

-413.

Finn, R.N. (1994) Physiological energetics of developing marine fish embryos and larvae. Ph.D. Thesis,

University of Bergen, Bergen, Norway.

Fisher, J.P., Brown, S.B., Wooster, G.W. & Bowser, P.R. (1998) Maternal Blood, Egg and Larval Thiamin

Levels Correlate with Larval Survival in Landlocked Atlantic Salmon (Salmo salar). J. Nutr. 128, 2456–

Fluchter, J. (1980) Review of the present knowledge of rearing whitefish (Coregonidae) larvae. Aquaculture

, 191-208.

Fontagné, S. (1996) Effet des phospholipides alimentaires sur la structure histologique du foie et de l’intestin

de larves de carpe. Ph.D. Thesis, Université de Bordeaux, France. 120 pp.

Fortier, L. & Harris, R.P. (1989) Optimal foraging and density-dependent competition in marine fish larvae.

Mar. Ecol. Prog. Ser. 51, 19-33.

Foscarini, R. (1988) A review: intensive farming for red sea bream (Pagrus major) in Japan. Aquaculture 72,

–246.

Fossum, P. (1983) Digestium rate of food particles in the gut of larval herring. Fiskeridir Skr. Ser. Havunders.

, 347-357.

Frolov, A.V., Pankov, S.L., Geradze, K.N. & Pankova, S.A. (1991) Influence of salinity on the biochemical

composition of the rotifer (Brachionus plicatilis, Muller) aspects of adaptation. Comp. Biochem. Physiol.

A, 541–550.

Fukusho, K., Arakawa, T. & Watanabe, T. (1980) Food value of a copepod, Tigriopus japonicus, cultured

with ω-yeast for larvae and juvenile of mud dab Limanda yokohamae. Bull. Jpn. Soc. Sci. Fish. 46, 499-

Fukusho, K. (1989) Biology and mass production of the rotifer Brachionus plicatilis. Int. J. Aquac. Fish.

Technol. 1, 232-240.

Furuita, H., Takeuchi, T., Watanabe, T., Fujimoto, H., Sekiya, S. & Imaizumi, K. (1996) Requirements of

larval yellowtail for eicosapentaenoic acid, docosahexaenoic acid, and n-3 highly unsaturated fatty acid.

Fisheries Science 62, 372–379.

Furuita, H., Tanaka, H., Yamamoto, T., Shiraishi, M. & Takeuchi, T. (2000) Effects of n y 3 HUFA levels in

broodstock diet on the reproductive performance and egg and larval quality of the Japanese flounder,

Paralichthys olvaceus. Aquaculture 187, 387–398

Fyhn, H.J. (1989) First feeding of marine fish larvae: are a free amino acids the source of energy?

Aquaculture 80, 111-120.

Fyhn, H.J., Finn, R.N., Helland, S., Rønnestad, I. & Lomsland, E.R. (1993) Nutritional value of phyto and

zooplankton as live food for marine fish. In: Fish Farming Technology. (Ed. by H. Reinersten, L.A. Dahle,

L. Jorgensen, K. Tvinnereim). pp. 121-126. Balkema, Rotterdam.

Fyhn, H.J. & Govoni, J.J. (1995) Endogenous nutrient mobilization during egg and larval development in two

marine fishes – Atlantic menhaden and spot. ICES Mar, Sci. Symp. 201, 64-69.

Gabott, P.A., Jones, D.A. & Nichols, D.H. (1976) Studies on the design and acceptability of microencapsulated

diets for marine particle feeders. II Bivalve molluscs. Eur. Symp. Mar. Biol. 1, 127-141.

Gapasin, R.S.J., Bombeo, R., Lavens, P., Sorgeloos, P. & Nelis, H. (1998) Enrichment of live food with

essential fatty acids and vitamin C: effects on milkfish (Chanos chanos) larval performance. Aquaculture

, 269–286.

Gardner, M.L.G. (1984) Intestinal assimilation of intact peptides and proteins from the diet - a neglected

field? Biol. Rev. 59, 289-331.

Gatesoupe, F.J., Léger, C., Boudon, M., Metailler, R. & Luquet, P. (1977) Alimentation lipidique du

rodaballo (Scophthalmus maximus, L.). II. Influence de la supplementation en esters methyliques de l´acide

lenolenique es de la complementation en acides gras de la serie n-3 sur la croissance. Ann. Hydrobiol. 8,

-254.

Gennari, L., Roncarati, A., Melotti, P. & Mordenti, O. (1992) Effects on early weaning on growth and

survival of sea bass. Rivista Ital. Acquac. 27, 133-143.

Geurden, I., Charlon, N., Marion, D. & Bergot, P. (1995a) Dietary phospholipids and body deformities in carp

(Cyprinus carpio L.) larvae. In: Larvi’ 95. (Ed. by P. Lavens, E. Jaspers & I. Roelants). pp. 162–165. EAS

Special Publication No. 24. Gent.

Geurden, I., Radunz-Neto, J. & Bergot, P. (1995b) Essentiality of dietary phospholipids for carp (Cyprinus

carpio L.) larvae. Aquaculture 131, 303–314.

Geurden, I., Coutteau, P. & Sorgeloos, P. (1997) Effect of a dietary phospholipid supplementation on growth

and fatty acid composition of European sea bass (Dicentrarchus labrax L.) and rodaballo (Scophthalmus

maximus L.) juveniles from weaning onwards. Fish Physiol. Biochem. 16, 259-272.

Glamuzina, B., Jud-Dujakovic, J. & Katavic, I. (1989) Preliminary studies on reproducition and larval rearing

of common dentex Dentex dentex (Linnaeus, 1758). Aquaculture 77, 75-84.

Glasser, F. & Oswald, M. (2001) High stocking densities reduce Oreochromis niloticus yield: model building

to aid the optimisation of production. Aquat. Living Resour. 14, 319-326.

Govoni, J.J. (1980) Morphological, histological, and functional aspects of alimentary canal and associated

organ development in larval Leiostomus xanthurus. Rev. Can. Biol. 39, 69-80.

Govoni, J.J., Peters, D.S. & Merriner, J.V. (1982) Carbon assimilation during the larval development of the

marine teleost Leiostomus xanthurus Lacépéde. J. Exp. Mar, Biol. Ecol. 64, 287-299.

Govoni, J.J. (1984) Histology. In: Ontogeny and Systematics of Fishes. (Ed. by H.G. Moser, W.J. Richards,

D.M. Cohen, M.P. Fahay, A.W. Kendall & S.L. Richardson). pp. 40-42. Amer. Soc. Ichthyol. Herpetol,

Spec. Publ. 1, Lawrence.

Govoni, J.J., Boehlert, G.W.L. & Watanabe, Y. (1986) The physiology of digestion in fish larvae. Environ.

Biol. Fishes. 16, 59-77.

Gulbrandsen, J. (1991) Effect of the ligth intensity on feeding success of Atlantic halibut larvae. Eur. Aquac.

Soc. Spec. Pub. 15, 336-338.

Hagen, N. (1993) Effect of different prey and larval densities on the gut content of plaice (Pleuronectes

platessa L.) at initial feeding. In: Physiological and biochemical aspects of fish development. (Ed. by B.T.

Walther & H.J. Fyhn). pp. 180-182. Univ. Bergen. Norway.

Hamlin, H.J., von Herbing, I.H. & Kling, L.J. (2000) Histological and morphological evaluations of the

digestive tract and associated organs of haddock throughout post-hatching ontogeny. J. Fish Biol. 57, 716–

Hamor, T. & Garside, E.T. (1977) Quantitative composition of the fertilized ovum and constituent parts in the

Atlantic salmon Salmo salar L. Can. J. Zool. 55, 1650-1655.

Han, K., Geurden, I. & Sorgeloos, P. (2000) Enrichment strategies for Artemia using emulsions providing

different levels of n-3 highly unsaturated fatty acids. Aquaculture 183, 335-347.

Hardy, R.W. (1989) Diet preparation. In: Fish Nutrition. (Ed. by Halver, J.E.). pp. 476–544. 2nd edn.

Academic Press.

Hart, P.R. & Purser, G.J. (1996) Weaning of hatchery-reared greenblack flounder (Rhombosolea tapirina,

Günter) from live to artificial diets: Effect of age and duration of the change over period. Aquaculture 145,

-181.

Hawkins, A.J.S. & Hilbish, T.J. (1992) The cost of cell volume regulation: protein metabolism during

hyperosmotic adjustment. J. Mar. Biol. Assoc. U.K. 72, 569-578.

Heat, M., Leaver, M., Matthews, A. & Nicoll, N. (1989) Dispertion and feeding of larval herring (Clupea

harengus, L.) in th eMorayFirth during september 1985. Est. Coastal Shelf Sci. 28, 549-566.

Helland, S. (1995) Modulation of the free amino acid pool and protein content in the brine shrimp Artemia.

Ph.D.Thesis Cand. Scient, University of Bergen, Bergen, Norway.

Heming, T.A. & Buddington, R.K. (1988) Yolk absorption in the embryonic and larval fishes. In: Fish

Physiology. (Ed. by W.S. Hoar & D.J. Randall). pp. 407-446. Vol XI, Parte A. Academic Press, New

York.

Hempel, G. (1979) Early life history of marine fish. Washington Sea Grant Publication, Seattle, E.U.A. 70 pp.

Hilton, J.W. (1989) The interaction of vitamins, minerals and diet composition in the diet of fish. Aquaculture

, 223-244.

Hjelmeland, K. (1983) Proteinase inhibitors in the muscle and serum of cod (Gadus morhua). Isolation and

characterization. Comp. Biochem. Physiol. 76B, 365-372.

Hjelmeland, K., Huse, I., Jorgensen, T., Molvik, G. & Raa, J. (1983) Trypsin and trypsinogen as indices of

growth and survival potential of cod (Gadus morhua L.) larvae. Flodevigen Rapp. 3, 1-17.

Hjelmeland, K. Huse, I., Jorgensen, T., Molvik, G. & Raa, J. (1984) Trypsin and trypsinogen as indices of

growth and survival potential of cod (Gadus morhua L.) larvae. Flodevigen Rapportser. 1, 189-201.

Hjelmeland, K., Pedersen, B.H. & Nilssen, E.M. (1988) Trypsin content in intestines of herring larvae,

Clupea harengus, ingesting inert polystyrene spheres or live crustacean prey. Mar. Biol. 98, 331–335.

Hjelmeland, K. (1995) Trypsin in fish. Ph.D. Thesis, University of Tromsø, Tromsø, Norway.

Holmgren, S., Axelsson, M. & Farrell, A.P. (1992) The effect of catecholamines, substance P and vasoactive

intestinal polypeptide on blood flow to the gut in the dogfish Squalus acanthias. J. Exp. Biol. 168, 161–

Holmgren, S. (1993) The effect of putative non-adrenergic, non-cholinergic autonomic transmitters on

isolated strips from the stomach of the rainbow trout Salmo gairdneri. Comp. Biochem. Physiol. 74, 229–

Holstein, B. & Humphrey, C.S. (1980) Stimulation of gastric acid secretion and suppression of VIP-like

immunoreactivity by bombesin in the Atlantic codfish, Gadus morhua. Acta Physiol. Scand. 109, 217–223.

Holt, G.J. (1993) Feeding larval red drum on microparticulate dietes in a closed recirculating water system. J.

World Aquac. Soc. 24, 225-230.

Houde, E.D, & Schekter, R.C. (1980) Feeding by marine fish larvae: developmental and functional responses.

Env. Biol. Fish. 5, 315-334.

Houde, E.D. & Schekter, R.C. (1983) Oxygen uptake and comparative energetics among eggs and larvae of

three subtropical marine fishes. Mar. Biol. 72, 283-293.

Houlihan, D.F., Carter, C.G. & McCarthy, I.D. (1995). Protein synthesis in fish. In: Fish Molecular Biology

and Biochemistry. (Ed. by P. Hochachka & T. Mommsen). pp. 191–220. Vol. 4, Elsevier Press,

Amsterdam.

Huang, L., Miwa, S., Bengston, D.A. & Specker, J.L. (1988a) Effect of triiodothyronine on stomach

formation and pigmentation in larval striped bass (Morone saxatilis). J. Exp. Zool. 280, 231-237.

Huang, L., Screiber, A.M., Soffientino, B., Bengston, D.A. & Specker, J.L. (1998b) Metamorphosis of

summer flounder (Paralichthys dentatus): thyroid status and the timing of gastric gloand formation. J. Exp.

Zool. 280, 413-420.

Hung, L.T., Tuan, N.A. Cacot, P. & Lazard, J. (2002) Larval rearing of the Asian Catfish, Pangasius bocourti

(Siluroidei, Pangasiidae): alternative feeds and weaning time Aquaculture 212, 115-127.

Hunter, J.R. (1977) Behavior and survival of northern anchovy Engraulis mordax larvae. Calif. Coop.

Oceanic Fish. Invest. Rep. 19, 138-146.

Hunter, J.R. (1980) The feeding behaviour and ecology of marine fish larvae. In: Fish behviour and its use in

the capture and culture of fishes. (Ed. by J.E. Bardach, J.J. Magnuson, R.C. May & J.M. Reinhart). pp.

-230. ICLARM Conf. Proc.

Hunter, J.R. (1981) Feeding ecology and predation of marine fish larvae. In: Marine Fish Larvae: Morpholog,

Ecology, and Relation to Fisheries. (Ed. by R. Lasker). pp. 34-77. Washington Sea Grant Program, Seattle.

Hunter, J.R. (1984) Sypnosis of culture methods for marine fish larvae. Am. Soc. Ichthyol. Herpetol. Spec.

Pub. 1, 24-27.

Ikeda, A. (1959) Embryological and histochemical studies on the development of the digestive system in a

teleost fish, Oryzias latipes. Hiroshima J. Med. Sci. 8, 71-88.

Ishizaki, Y., Takeuchi, T., Watanabe, T., Arimoto, M. & Shimizu, K. (1998) A preliminary experiment on th

effect of Artemia enriched with arachidonic acid on survival and growth of yellowtail. Fish. Sci. 64, 295-

Iwai, T.R. (1964) Feeding and ciliary conveying mechanisms in larvae of salmonid fish Plecoglossus altivelis

Temminck et Schlegel. Physiol. Ecol. Jpn. 12, 38-44.

Iwai, T.R. (1967a) The comparative study of the digestive tract of teleost larvae - I, Fine structure of the gut

epithelium in larvae of Ayu. Bull. Jpn. Soc. Sci. Fish. 33, 489-496.

Iwai, T. (1967b) The comparative study of the digestive tract of teleost larvae - II, Ciliated cells of the gut

epithelium of pond smelt larvae. Bull. Jpn. Soc. Sci. Fish. 33, 1116-1119.

Iwai, T. (1968a) The comparative study of the digestive tract of teleost larvae - V. Fat absorption in the gut

epithelium of goldfish larvae. Bull. Jpn. Soc. Sci. Fish. 34, 973-978.

Iwai, T. (1968b) Fine strueture and absorption patterns of intestial epithelial cells in rainbowi trout alevins. Z.

Zellforsch. Mikrosk. Anat. 91, 366-379.

Iwai, T.R. & Tanaka, M. (1968a) The comparative study of the digestive tract of teteost larvae - III. Epithelial

cells in the posterior gut of halfbeak larvae. Bull. Jpn. Soc. Sci. Fish. 34, 44-48.

Iwai, T.R. & Tanaka, M. (1968b) The comparative study of the digestive tract of teteost larvae - IV.

Absorption of Fat by the gut of halfbeak larvae. Bull. Jpn. Soc. Sci. Fish. 34, 871-875.

Iwai, T. (1969) Fine structure of gut epithelial cells of larval and juvenile carp during absorption of fat and

protein. Arch. Histol. Jpn. 30, 183-199.

Iwai, T.R. (1980) Sensory anatomy and feeding of fish larvae. In: Fish behaviour and its use in the capture

and culture of fishes. (Ed. by J.E. Bardach, J.J. Magnuson, R.C. May, J.M. Reinhart). pp. 124-145.

ICLARM Conf. Proc.

Iwai, T. & Rosenthal, H. (1981) Ciliary movements in guts of early clupeoid and salangid larvae. Mar. Ecol.

Prog. Ser. 4, 365-367.

Iynedjian, P.B. (1993) Mammalian glucokinase and its gene. Biochem. J. 293, 1-13.

Izquierdo, M.S., Watanabe, T. Takeuchi, T. Arakawa, T. & Kitajima, C. (1989) Requirement of larval red

seabream Pagrus major for essential fatty acids. Nippon Suisan Gakkaishi 55, 859–867.

Izquierdo, M.S. (1996) Essential fatty acid requirements of cultured marine fish larvae. Aquaculture Nutrition

, 183-191.

Izquierdo, M. & Fernández-Palacios, H. (1997) Nutritional requirements of marine fish larvae and

broodstock. In: Feeding Tomorrow’s Fish. pp. 243-264.Cahiers Options Méditerranéennes 22.

Izquierdo, M.S., Socorro, J., Arantzamendi, L. & Hernández-Cruz, C.M. (2000) Recent advances in lipid

nutrition in fish larvae. Fish Physiol Biochem. 22, 97–107.

Jancarik, A. (1964) Die Verdauung der Hauptnährstoffe beim Karpten. Z. Fisch. Hilfswiss. 12, 601-684.

Janssens, B., Childress, J.J., Baguet, F. & Rees, J.F. (2000) Reduce enzymatic antioxidative defense in deap

sea fish. J. Exp. Biol. 203, 3717-3725.

Jauncey, K. (1981) The effects of varying dietary composition on mirrow carp (Cyprinus carpio) maintained

in thermal effluents and laboratory reciclyng systems. In: Proceedings of World Symposium on

Aquaculture in Heates effluent and Recirculation systems. (Ed. by Heeneman GmbH). pp. 247.261. Vol. 1,

Berin.

Jenkins, G.P. (1987) Comparative diets, prey selection, and predatory impact of co-occuring larvae of two

flounder species. J. Exp. Mar. Biol. Ecol. 110, 147-170.

Johannes, R.E. & Satomi, M. (1967) Measuring organic matter retained by aquatic invertebrates. J. Fish. Res.

Board Can. 24, 2467-2471.

Jones, D.A., Kamarudin, M.S. & Le Vay, L. (1993) The potential for replacement of live feeds in larval

cultures. J. World Aquacult. Soc. 24, 199-210.

Kamisaka, Y., Totland, G.K., Tagawa, M., Kurokawa, T., Suzuki, T., Tanaka, M. & Rønnestad, I. (2001)

Ontogeny of cholecystokinin-immunoreactive cells in the digestive tract of Atlantic halibut, Hippoglossus

hippoglossus, larvae. Gen. Comp. Endocrinol. 123, 31–37.

Kanazawa, A., Teshima, S., Inamori, S., Sumida, S. & Iwashita, T. (1982) Rearing of larval red sea bream and

ayu with artificial diets. Mem. Fac. Fish., Kagoshima Univ. 31, 183-192.

Kanazawa, A., Teshima, S., Inamori, S. & Matsubara, H. (1983) Effects of dietary phospholipids on growth

of the larval red sea bream and knife jaw. Mem. Fac. Fish. Kagoshima Univ. 32, 115– 120.

Kanazawa, A. (1985) Essential fatty acid and lipid requirement of fish. In: Nutrition and feeding in fish. (Ed.

by C.B. Cowey, A.M. Mackie & J.G. Bell). pp. 281-298. Academic Press, London.

Kanazawa, A., Teshima, S. & Sakamoto, M. (1985) Effects of dietary bonito-egg phospholipids and some

phospholipids on growth and survival of the larval ayu, Plecoglossus altivelis. Apl. Ichthyol. 4, 165–170.

Kanazawa, A. & Teshima, S. (1988) Microencapsulate diets for fish larvae. NOAA Tech. Rep. NMFS 70. Natl.

Mar. Fish. Serv. Seattle, WA. 57-62.

Kanazawa, A. (1993a) Essential phospholipids of fish and crustaceans. In: Fish nutrition in practice. (Ed. by

S.J. Kaushik & P. Luquet). pp. 519-530. INRA, Paris.

Kanazawa, A. (1993b). Nutritional mechanisms involved in the ocurrence of abnormal pigmentation in

hatchery reared flatfish. J. World Aquaculture Soc. 24, 162-166.

Kanazawa, A. (1997) Effects of docosahexaenoic acid and phospholipids on stress tolerance of fish.

Aquaculture 155, 129-134.

Kane, J. (1984) The feeding habits of co-occurring cod and haddock larvae from Georges Bank. Mar. Ecol.

Prog. Ser. 16, 9-20.

Kapoor, B.G., Smit, H. & Vengfiina, I.A. (1975) The alimentary canal and digestion in teleosts. Adv. Mar.

Biol. 13, 109-239.

Kaushik, S.J. & Medale, F. (1994) Energy requirements, utilization and dietary supply to salmonids.

Aquaculture 124, 81–97.

Kawai, S. & Ikeda, S. (1973a) Studies on digestive enzymes of fishes III. Development of the digestive

enzymes of rainbow trout after hatching and the effect of dietary change on the activities of digestive

enzymes in the juvenile stage. Bull. Jap. Soc. Sci. Fish. 39, 819-823.

Kawai, S. & Ikeda, S. (1973b) Studies on digestive enzymes of fishes – IV. Development of the digestive

enzymes of carp and read sea bream after hatching. Bull. Jpn. Soc. Sci. Fish. 39, 877-881.

Kendall, A.W., Ahlstrom, E.H. & Moser, H.G. (1984) Early tife history stnpes of Fishes and their characters.

In: Ontogeny and Systematics of Fishes. (Ed. by H.G. Molser, W.J. Richards, D.M. Cohen, M.P. Fahay,

A.W. Kendall & S.L. Richardson). pp. 11-24. Amer. Soc. Ichthyol. Herpertol. Spec. Publi. I. Lawrence.

Kiliaan, A., Holmgren, S., Jonsson, A.-C., Dekker, K. & Groot, J. (1992) Neurotensin, Substance P, Gastrin r

Cholecystokinin, and Bombesin in the intestine of the Tilapia Oreochromis mossambicus and the Goldfish

Carassius auratus: immunochemical detection and effects on electrophysiological characteristics. Gen.

Comp. Endocrinol. 88, 351–363.

Köck, G. & Hofer, R. (1989) The effect of natural and artificial diets upon trypsin activity of roach (Rutilus

rutilus) and whitefish (Coregonus sp.) larvae. Pol. Arch. Hydrobiol. 36, 443-453.

Kolkovski, S., Tandler, A., Kissil, G.Wm. & Gertler, A. (1993) The effect of dietary exogenous digestive

enzymes on ingestion, assimilation, growth and survival of gilthead seabream (Sparus aurata, Sparidae,

Linnaeus) larvae. Fish. Physiol. Biochem. 12, 203–209.

Kolkovski, S. (1995) The mechanism of the action of live food on utilization of microdies in gilthead

seabream Sparus aurata larvae. Ph.D. Thesis. Hebrew University, Jerusalem, 120 pp.

Kolkovski, S., Arieli, A. & Tandler, A. (1997a) Visual and chemical cues stimulate microdiet ingestion in

gilthead seabream, Sparus aurata, larvae. Aquacult. Int. 5, 527–536.

Kolkovski, S., Koven, W. & Tandler, A. (1997b) The mode of action of Artemia in enhancing utilization of

microdiet by gilthead seabream Sparus aurata larvae. Aquaculture 155, 193-205.

Kolkovski, S., Yackey, C., Czeny, S. & Dabrowski, K. (2000a) The effect of microdiets supplementation of

dietary digestive enzymes and hormones on growth and enzyme activity in yellow perch juveniles. North

Americ. J. of Aquacult. 62, 130–134.

Kolkovski, S., Czeny, S. & Dabrowski, K. (2000b) Use of krill hydrolysate as feed attractant for fish larvae

and juvenile. J. World Aquacult. Soc. 31, 81–88.

Kolkovski, S. (2001) Digestive enzymes in fish larvae and juveniles -Implications and applications to

formulated diets. Aquaculture 200, 181–201.

Koven, W.M., Tandler, A., Kissil, G.Wm. & Sklan, D. (1992) The importance of n-3 highly unsaturated fatty

acids for growth in larval Sparus aurata and their effect on survival, lipid composition and size

distribution. Aquaculture 104, 91–104.

Kraul, S. (1993) Larviculture of the Mahimahi, Coryphaena hippurus in Hawaii, USA. J. World Aquacul.

Soc. 24, 410-421.

Krause, W.J., Cutts, J.H. & Leeson, C.R. (1977) The postnatal development of the alimentary canal in

opossum: III. Small intestine and colon. J. Anat. 123, 21-46.

Kurokawa, T. & Suzuki, T. (1996) Formation of the diffuse pancreas and the development of digestive

enzyme synthesis in larvae of the japanese flounder Paralichthys olivaceus. Aquaculture, 141, 267-276.

Lagler, K.F., Bardach, J.E., Miller, R.R. & May Pasino, D.R. (1984) Ictiología. AGT Editor. México, 489 pp.

Lall, S.P. (1989) The minerals. In: Fish Nutrition. (Ed. by J.E. Halver & R.W. Hardy). pp. 219-257. 2nd Ed.

Academic Press, New York.

Lauff, M. & Hofer, R. (1984) Proteolityc enzymes in fish development and the importance of dietary

enzymes. Aquaculture 37, 335-346.

Laurence, G.C. (1971) Digestion rate of larval largemouth bass. N.Y. Fish. Game J. 18, 52-56.

Laurence, G.C. (1977) A bioenergetic model for the analysis of feeding and survival potential of winter

flounder, Pseudopleuronectes americanus, larvae during the period from hatching to metamorphosis. U.S.

Fish. Bull. 75, 529-546.

Lazo, J.P., Dinis, M.T., Holt, G.J., Faulk, C. & Arnold, C.R. (2000) Co-feeding microparticulate diets with

algae: toward eliminating the need of zooplankton at first feeding in larval red drum Sciaenops ocellatus.

Aquaculture 180, 339-351.

Lee, J.-H., Park, T.G., Lee, Y.-B., Shin, S.-C. & Cho, H.-K. (2001) Effect of adding non-volatile oil as a core

material for the floating microspheres prepared by emulsion solvent diffusion method. J.

Microencapsulation 1, 65-75.

Léger, P., Bengston, D.A. & Simpson, K.L. (1986) The use and nutritional value of Artemia as a food source.

Oceanogr. Mar. Biol. Ann. Rev. 24, 521-623.

Léger, C. (1988) Digestion, absorption and transport of lipids. In: Nutrition and feeding in fish. (Ed. by

Cowey, C.B., Mackie, A.M. & Bell, J.G.). pp. 299–331. Academic Press, London.

Léger, P.D., Grymonpré, E., Van Ballaer, E. & Sorgeloos, P. (1989) Advances in the enrichment of rotifers

and Artemia as food sources in marine larviculture. Eur. Aquac. Soc. Esp. Public. 10, 141-142.

Lie, Ø., Haaland, H., Hemre, H.I., Maage, A., Lied, E., Rosenlund, G., Sandnes, K. & Olsen, Y. (1997).

Nutritional composition of rotifers following a change in diet from yeast and emulsified oil to microalgae.

Aquaculture International 5, 427-438.

Lim, C., Sukhawongs, S., & Pascual, F.P. (1979) A preliminary study on the protein requirement of Chanos

chanos., (Forskal) fry in controlled envirment. Aquaculture 17, 195-201.

Lim, L.C. (1991) Larviculture of grasy grouper (Epinepheus tauvina F.) and brown-marbled grouper (E.

fuscoguttatus F.) in Singapore, Eur. Aquac. Soc. Spec. 15, 321-322.

Lubzens, E. (1987) Raising rotifers for use in aquaculture. Hydrobiologia 147, 245-255.

Lubzens, E., Tandler, A. & Minkoff, G. (1989) Rotifers as food in aquaculture Hydrobiologia 186/187, 387-

Lundin, K., Holmgren, S. & Nilsson, S. (1984) Peptidergic functions in the dogfish rectum. Acta Physiol.

Scand. 12A, 46-55.

Masuma, S., Kanematu, M., & Teruya, K. (1990) Embryonic and mophological development of larval and

juveniles of the amberjack, Seriola dumerili, Jpn. J. Ichthyol. 37, 164-169.

May, R.C. (1974) Larval mortality in marine fishes and the critical period concept. In: The early life history of

fish. (Ed. by Blaxter, J.H.S.). pp. 1-19. Springer-Verlag, New York.

McDonald, T.J., Jornvall, H., Nilsson, G., Vagne, M., Ghatei, M., Bloom, S.R. & Mutt, V. (1979)

Characterization of a gastrin releasing peptide from porcine non-antral gastric tissue. Biochem. Biophys.

Res. Commun. 90, 227–233.

Merchie, G., Lavens P., Dhert, Ph., Dehasque, M., Nelis, H., De Leenheer, A. & Sorgeloos, P. (1995a)

Variation of ascorbic acid content in different live food organism. Aquaculture 134, 325-337.

Merchie, G., Lavens P., Dhert, Ph., Pector, R., Mai Soni, A.F., Abbes, M., Nellis, H., Ollevier, F., De

Leenheer, A. & Sorgeloos, P. (1995b) Live food mediated vitaminn C tranfer to Dicentrarchus labrax and

Clarias gariepinus. J. Appl. Ichthyol. 11, 336-341.

Merchie, G., Lavens, P., Storch, P., Übel, U., Nelis, H., De Leenheer, A. & Sorgeloos, P. (1996) Influence of

dietary vitamin C dosage on rodaballo (Scophthalmus maximus) and European sea bass (Dicentrachus

labrax) nursery stages. Comp. Biochem. Physiol. 114A, 123-133.

Miki, N., Taniguchi, T., Hamakawa, H., Yamada, Y. & Sakurai, N. (1990) Reduction of albinism in hatchery

reared flounder “hirame” Paralichthys olivaceus by feeding on rotifers enriched with vitamin A.

Susanzoshoku 38, 147-155. (In Japanese).

Millikin, M.R. (1983) Interactive effects of dietary protein and lipid on growth and protein utilization of age-0

stripped bass. Trans. Am. Fish. Soc. 112, 185-193.

Mims, S.D., Webster, C.D., Tidwell, J.H. & Yancey, D.H. (1991) Fatty acid composition of Daphnia pulex

cultured by two different methods. J. World. Aquac. Soc. 22, 153-156.

Mironova, N.V. (1974) The energy balance of Tilapia mossambica. J. íchthyol. 14, 431-438.

Moffat, N.M. (1981) Survival and growth of northern anchovy larvae on the low zooplankton densities as

affected by the presence of a Chlorella bloom. Rapp. P.-v. Réun. Cons. Int. Explor. Mer 178, 475-480.

Montero, D., Tort, L., Izquierdo, M.S., Robaina, L. & Vergara, J.M. (1998) Depletion of serum alternative

complement pathway activity in gilthead seabream caused by alpha-tocopherol and n-3 HUFA dietary

deficiencies. Fish Physiol. Biochem. 18, 399–407.

Moroz, I.Y. & Luzhin, B.P. (1976) Dynamics of metabolism in the embryonic and early post-embryonic

development of the carp Cyprinus carpio. J. Ichthyiol. 16, 964-970.

Mourente, G. & Tocher, D.R. (1992) Effect of weaning onto a pelled diet on docosahexaenoic acid (22:6n-3)

levels in brain of developing rodaballo (Scophthalmus maximus L.). Aquaculture 105, 363-377.

Mourente, G., Tocher, D.R., Diaz, E., Grau, A. & Pastor, E. (1999) Relationships between antioxidants,

antioxidant enzyme activities and lipid peroxidation products during early development in Dentex dentex

eggs and larvae. Aquaculture 179, 309-324.

Moyano, F.J., Díaz, M., Alarcón, F.J. & Sarasquete, M.C. (1996) Characterization of digestive enzyme

activity during larval developement of gilthead seabream (Sparus aurata). Fish Physiol. Biochem. 15, 121-

Muller-Feuga, A. (2000) The role of microalgae in aquaculture: situation and trends. J. Appl. Phycol. 12, 527–

Munilla-Morán, R., Stark, J.R. & Barbour, A. (1990) The role of exogenous enzymes in digestion in culture

of rodaballo larvae (Scophthalmus maximus L.). Aquaculture 88, 337-350.

Næss, T., Germain-Henry, M. & Naas, K.E. (1995) First feeding of Atlantic halibut (Hippoglossus

hippoglossus) using different combinations of Artemia and wild plankton. Aquaculture 130, 235–250.

Nakagawa, H., & Tuschiya, Y. (1971) Studies on the rainbow trout eggs Salmo gardnieri irideus. III.

Determination of lipid composition of oil globule and lipoprotein. J. Fac. Fish. Anim. Husb. Hiroshima

Univ. 10, 11-19.

Nanton, D.A. & Castell, J.D. (1998) The effects of dietary fatty acids on the fatty acid composition of the

harpacticoid copepod, Tisbe sp., for use as a live food for marine fish larvae. Aquaculture 163, 251–261.

Noaillac-Depeyre, J. & Gas, N. (1976) Electron microscopic study on gut epithelium of the tench (Tinca tinca

L.) with respect to its absorptive futictions. Tissue Cell 8, 511-530.

Nose, T. & Arai, S. (1973) Optimum level of protein in purified diet for eel, Anguilla japonica. Bull.

Fresheater Fish. Res. Lab. Tokyo. 22, 145-155.

O´Connell, C.P. (1976) Histological criteria for diagnosing the starving condition in early post yolk sac larvae

of the northern anchovy, Engraulis mordax Girard. Exp. Mar. Biol. Ecol. 25, 285-312.

O´Connell, C.P. (1981) Development of organ systems in ihe northem anchovy, Enrgraulis mordax, and other

teleosts. Amer. Zool. 21, 429-446.

Olsen, Y., Rainuzzo, J.R., Reitan, K.I. & Vadstein, O. (1993) Manipulation of lipids and n-3 fatty acids in

Brachionus plicatilis. In: Proceedings of the first international conference on fish farming technology. (Ed.

by H. Reinertsen, L.A. Dahle, L. Jørgensen & K. Tvinnereim). pp. 101–108. 9–12 August 1993.

Trondheim, Norway. A.A. Balkema, Rotterdam,

Orhum, O.H. (1989) Early life history of white seabass Atractoscion nobilis. Ms.C. Thesis. San Diego State

Univ. California, U.S.A. 162 pp.

Ostrowski, A.C. (1989) Effect of rearing tank background color on early survival of dolphin larvae. Prog-Fish

Cult. 51, 161-163.

Ounaïs-Guchemann, N. (1989) Definition d´un modele d´elevage larvarieintensif pour la daurade Sparus

aurata. Ph.D.Thesis d´Aix Marsille II 184 pp.

Ozawa, T., Kawai, K. & Uotani, I. (1991) Stomach content analysis of chub mackerel Scomber japonicus

larvae by quantification method. Nippon Suisan Gakkaishi 57, 1241-1245.

Ozkizilcik, S. & Chu, F.L.E. (1996) Preparation and characterization of a complete microencapsulated diet for

striped bass Morone saxatilis larvae. J. Microencapsulation 3, 331-43.

Papoutsoglou, S.E., Mylonakis, G., Miliou, H., Karakatsouli, N.P. & Chadio, S. (2000) Effects of background

color on growth performances and physiological responses of scaled carp (Cyprinus carpio L.) reared in a

closed circulated system. Aquacultural Engineering 22, 309-318.

Parra, G., Rønnestad, I. & Yúfera, M. (1999). Energy metabolism in eggs and larvae of the Senegal sole. J.

Fish Biol. 55, 205–214.

Pedersen, B.H. (1984) The intestinal evacuation rates of larval herring (Clupea harengus L.) predation on

wild plankton. Dana Rep. 3, 321-330.

Pedersen, B. H., Nilssen, E. M. & Hjeldman, K. (1987) Variations in the content of trypsin and trypsinogen in

larval herring (Clupea harengus) digesting copepod nauplii. Mar. Biol. 94, 171-181.

Pedersen, B. H. & Hjelmeland, K. (1988) Fate of trypsin and assimilation efficiency in larval herring (Clupea

harengus) following of copepods. Mar. Biol. 97, 467-476.

Pepin, P. (1991) Effect of temperature and size on develoment, mortality, and survival rates of the pelagic

early life history stages of marine fish. Can. J. Fish. Aquat. Sci. 48, 503-518.

Péres, A., Cahu, C., Zambonino-Infante, J.L., Le Gall, M.M. & Quazuguel, P. (1996) Amylase and trypsin

response to intake of dietary carbohydrate and protein depend on the development stage in sea bass

Dicentrarchus labrax larvae. Fish Physiol. Biochem. 15, 237–242.

Péres, A., Cahu, C.L. & Zambonino-Infante, J.L. (1997) Dietary spermine supplementation induces intestinal

maturation in sea bass (Dicentrarchus labrax) larvae. Fish Physiol. Biochem. 16, 479–485.

Person-Le Ruyet, J., Alexandre, J. C., Thébaud, L. & Mugnier, C. (1993) Marine fish larvae feeding:

formulated diets or live prey? J. World Aquac. Soc. 24, 211-224.

Pfeffer, E. (1995) Carbohydrate utilization and its determination. J. Appl. Ichthyol. 11, 175–182.

Polo, A., Yufera, M. & Pascual, E. (1992) Feeding and growth of gilthead seabream (Sparus aurata L.) larvae

in relation to size of the rotifer strain used as food. Aquaculture 79, 157–161.

Prakash, A. (1961) Distribution and differentiation of alkaline phosphatase in the gastro-intestinal tract of

steelhead trout. J. Exp. Zool. 146, 237-251.

Prather, E.E. & Lovell, R.T. (1973) Response of inensively fed channel catfish to diets containing various

protein-energy rations. Proc. of 27th. Ann. Conf. of South Eastern Assoc. of Game ans Fish. Comm. 455-

Radünz-Neto, J., Corraze, G., Charlon, N. & Bergot, P. (1994) Lipid supplementation of casein-based purified

diets for carp (Cyprinus carpio L.) larvae. Aquaculture 128, 153–161.

Rainuzzo, J.R., Olsen, Y. & Rosenlund, G. (1989) The effect of enrichment diets on the fatty acid

composition of the rotifer Brachionus plicatilis. Aquaculture 79, 157-161.

Rainuzzo, J., Retain, K.I. & Olsen, Y. (1997) The significance of lipids at early stages of marine fish: a

review. Aquaculture 155, 103-115.

Real Academia de las Ciencias Exactas, Físicas y Naturales. 2001. Diccionario escencial de las Ciencias Siclo

XXI. ESPASA. 1022 pp.

Retain, K.I., Bolla, S. & Olsen, Y. (1991) Ingestion and assimilation of microalgae in yolk sac larvae of

halibut, Hippoglossus hippoglossus (L.). Eur. Aquac. Soc. Spec. Pub. 15, 332-334.

Retain, K.I., Bolla, S. & Olsen, Y., 1994. A study of the mecchanism of algal uptake in yolk sac larvae of

Atlantic halibut (Hippoglossus hippoglossus). J. Fish Biol. 44, 303-310.

Robin, J.H. (1995) The importance of n-6 fatty acids in the culture of marine fish larvae. ICES Mar. Sci.

Symp. 201, 106-111.

Rodríguez, C., Pérez, J.A., Badía, P., Izquierdo, M.S., Fernández-Palacios, H. & Lorenzo-Hernández, A.

(1998) The n-3 highly unsaturated fatty acids requirements of gilthead seabream Sparus aurata L. larvae

when using an appropriate DHA / EPA ratio in the diet. Aquaculture 169, 9–23.

Rønnestad, I., Robertson, R.R. & Fyhn, H.J. (1996) Free amino acids and protein content in pelagic and

demersal eggs of tropical marine fishes. In: The Fish Egg. (Ed. by MacKinlay, D.D., Eldridge, M.). pp.

–84. American Fisheries Society, Physiology Section, Bethesda.

Rønnestad, I., Thorsen, A. & Finn, R.N. (1999) Fish larval nutrition: a review of recent advances in the roles

of amino acids Aquaculture 177, 201–216.

Rønnestad, I., Rojas-García, C.R., Tonheim, S.K. & Conceição, L.E.C. (2001) In vivo studies of digestion and

nutrient assimilation in marine fish larvae. Aquaculture 201, 161–175.

Ronzani-Cerquira, V. (1986) L´elevage larvarie intensif du loup, Dicentrarchus labrax: influence de la

lumiere, de la densite en proies et de la temperature sur l´alimentation, sur le transif les performances

zootechniques. Ph.D. Thesis, Univ. D´Aix Marseille, II 191 pp.

Rosenlund, G., Stoss, J. & Talbot, C. (1997) Co-feeding marine fish larvae with inert and live diet.

Aquaculture 155, 183-191.

Rosenthal, H. & Hempel. G. (1970) Experimental studies in feeding and food requirements of herring larvae

(Clupea harengus L.). In: Marine Food Chains. (Ed. by J.H. Steele). pp. 344-364. University of California

Press, Berkeley.

Rust, M. (1995) Quantitative aspects of nutrient assimilation in six species of fish larvae. Ph.D. Thesis,

University of Washington, School of Fisheries.

Ryer, C.H. & Boehlert, G.W. (1983) Feeding: chronology, daily ration, and the effects of temperature upon

gastric evacuation in the pipefish, Syngnathus fuscus. Env. Biol. Fish. 9, 301-306.

Sabaut, J.J. & Luquet, P. (1973) Nutritional requirements of gilthead sea bream Chrysophrys aurata.

Quantitative protein requirements. Mar. Biol. 18, 50-54.

Salhi, M., Kolkovski, S., Izquierdo, M.S. & Tandler, A. (1995) Inclusion of lecithin and polar or neutral lipids

high in n-3 HUFA in microdiets for gilthead seabream (Sparus aurata) larvae. In: Larvi’ 95. (Ed. by P.

Lavens, E.Jaspers & I. Roelants). pp. 184–187. EAS Special Publication No. 24. Gent.

Salhi, M., Izquierdo, M.S., Hernández-Cruz, C.M., Socorro, J. & Fernández-Palacios, H. (1997) The

improved incorporation of polyunsaturated fatty acids and changes in liver structure in larval gilthead

seabream fed on microdiets. J. Fish Biol. 51, 869-879.

Salhi, M., Hernández-Cruz, C.M., Bessonart, M., Izquierdo, M.S. & Fernández-Palacios, H. (1999) Effect of

different dietary polar lipid levels and different n-3 HUFA content in polar lipids on gut and liver

histological structure of gilthead seabream Sparus aurata larvae. Aquaculture 179, 253-263.

Sánchez-Velázco, L. & Norbis, W. (1997) Comparative diets and feeding habits of Boops boops and Diplodus

sargus larvae, two sparids fishes co.occuring in the norhwestern Mediterranean (May 1992). Bull. Mar.

Sci. 61, 821-835.

Sandel, L.J. & Daniel, J.C. (1988) Effect of ascorbic acid on collagen in RNA levels in short term

chondrocyte cultures. Connect. Tissue Res. 17, 11–22.

Santiago, C.B., Banes-Aldaba, M. & Laron, M.A. (1982) Dietary crude protein requirement of Tilapia

nilotica fry. Philipp. J. Biol. 11, 255-265.

Sarasquete, M. C., Polo, A. & Yúfera, M. (1995) Histology and histochemistry of the development of the

digestive system of larval gilthead seabream, Sparus aurata L. Aquaculture 78, 79-92.

Sargent, J.R., McEvoy, L.A. & Bell, J.G. (1997) Requirements, presentation and sources of polyunsaturated

fatty acids in marine fish larval feeds. Aquaculture 155, 117-127

Sargent, J., McEvoy, Estevez, A., Bell, G., Bell, M., Henderson, J. & Tocher, D. (1999) Lipid nutrition of

marine fish during early development: Current status and future directions. Aquaculture 179, 217–229.

Satia, B.P. (1974) Quantitative protein requirements of rainbow trout. Prog. Fish-Cult. 36, 80-85.

Satia, B.P., Donaldson, L-R., Smith, L.S. & Nightgale, J.N. (1974) Composition of ovarian fluid and egg of

the University of Wadhington strain of rainbow trout eggs during development. Nippon Suisan Gakkashi

, 795-799.

Schauer, P.S. & Simpson, K.L. (1985) Bioacumulation and bioconversion of dietary labeled fatty acids in

Artemia and winter flounder (Pseudopleuronectes americanus). Can. J. Fish. Aquat. Sci. 42, 1430-1438.

Schipp, G.R., Bosmans, J.M.P. & Marshall, A.J. (1999) A method for hatchery culture of tropical calanoid

copepods, Acartia spp. Aquaculture 174, 81–88.

Scout, A.P. & Middltown, C. (1979) Unicellular algae as a food for turbor (Scophthamus maximus L.) larvaethe

importance of dietary long chain polyunsaturated fatty acids. Aquaculture 18, 227-240.

Segner, H., Rosch, R., Schmidt, H. & von Poeppinghausen, K.J. (1989) Digestive enzymes in larval

Coregonus lavaretus L. J. Fish Biol. 35, 249-263.

Shen, H., Howles, P. & Tso, P. (2001) From interaction of lipidic vehicles with intestinal epithelial cell

membranes to the formation and secretion of chylomicrons. Adv. Drug Del. Rev. 50, S103–S125.

Shirota, A. (1970) Studies on the mouth siza of fish larvae. Bull. Jpn. Soc. Sci. 36, 353-368.

Sire, M.F. & Vernier, J.M. (1981) Étude ultrastructurale de la synthèse de chylomicrons au cours de

l’absorption intestinale des lipids chez la truite. Influence de la nature des acides gras ingérés. Biol. Cell

, 47–62.

Sire, M.F., Lutton, C. & Vernier, J.M. (1981) New views on intestinal absorption of lipids in teleostean

fishes: an ultrastructural and biochemical study in the rainbow trout. J. Lipid Res. 22, 81–94.

Snell, T.W., & Carrillo, K. (1984) Body siza variation among strains of rotifer Brachionus plicatilis.

Aquaculture 37, 359-367.

Sorgeloos, P. (1980) The use of the brine shrimp Artemia in aquaculture. In: The brine shrimp Artemia.

Ecology, Culturing, Use in Aquaculture. (Ed. by Persoone, G., Sorgeloos, P., Ž. Roels, O., Jaspers, E.). pp.

–46. Vol. 3. Universal Press, Wetteren.

Sorgeloos, P., Dhert, P. & Candreva, P. (2001) Use of the brine shrimp, Artemia spp., in marine fish

larviculture. Aquaculture 200, 147–159.

Sorokin, Ju.I. (1966) Carbon-14 method in the study of the nutrition of aquatic animals. Int. Rev. Gesamten

Hydrobiol. 51, 209-224.

Sorokin, Ju.I., & Panov, D.A. (1966) The use af C14 for the quantitative study of the nutntion of fish larvae.

Int. Rev. Gesamten Hydrobiol. 51, 743-756.

Steffens, W. (1989) Principles of Fish Nutrition, Ellis Horwood, London. 518 pp.

Støttrup, G.J. & Norsker, N.H. (1997) Production and use of copepods in marine fish larviculture.

Aquaculture 155, 231-247.

Stroband, H.W.J. (1977) Growth and diet dependent structural adaptations of the digestive tract in juvenile

grass carp (Ctenopharyngodon idella, Val.). J. Fish Biol. 11, 167-174.

Stroband, H.W.J., Meer, H. v.d. & Timmermans, L.P.M. (1979) Regional functional differentiation in the gut

of the grasscarp, Ctenopharyngodon idella (Val,). Histochemistry 64, 235-249.

Stroband, H.W.J. & Dabrowski, K.R. (1979) Morphological and physiological aspects of the digestive system

and feeding in freshwater fish larvae. In: La Nutntion des Poisons. (Ed. By M. Funtaine) pp. 355-376.

CNERNA, Paris.

Stroband, H.W.J. & Kroon, A.G. (1981) The development of the stomach in Clarias lazera and the intesiinal

absortion of protein macromolecules. Cell Tissue Res. 215, 397-415.

Stroband, H.W.J. & Veen, F.H. v.d. (1981) Localization of protein absorption during transport of food in the

intestine of the grasscarp, Ctenopharyngodon idella (Val.), J. Exp. Zool. 218, 149-156.

Szlaminska, M. (1980) A histochemical study of digestive enzymes in pike larvae. Fish. Manage. 11, 135-

Tacon, A.G.J. (1988) The nutrition and feeding of farm fish and shirmp - a training manual. 3. Feeding

methods. FAO, Brasilia, Brasil, GCP/RLA/075/ITA Field Doc. 7/E, 208 pp.

Tagliafierro, G.G., Rossi, G., Bonini, E., Faraldi, G. & Farina, L. (1989) Ontogeny and differentiation of

regulatory peptide and serotonin immunoreactivity in the gastrointestinal tract of an elasmobranch. J. Exp.

Zool. Suppl. 2, 165–174.

Takahashi, K., Hatta, N., Sugawara, Y. & Sato, R. (1978) Organogenesis and functional revelations of

alimentary tract and kidney of chum salmon. Tohoku J. Agric. Res. 29, 98-109.

Takeuchi, T., Masuda, R., Ishizaki, Y., Watanabe, T., Kanematsu, M., Imaizumi, K. & Tsukamoto, K. (1996)

Determination of the requierement of larval striped jack for eicosapentaenoic acid and docosaheaenoic acid

using enriched Artemia nauplii. Fish. Sci. 62, 760-765.

Tamaru, C.S., Lee, C.-S. & Ako, H. (1991) Improving the larval rearing of striped mullet, Mugil cephalus, by

manupulating quantity and quality of rotifer, Brachionus plicatilis. In: Rotifer and microalgae culture

systems, Proc. of US-Asia Workshop. (Ed. by W. Fulks & K. Main). pp. 89-103. Oceanic Inst., Honolulu.

Tanaka, M. (1972a) Studies on the stucture and function of the digestive system in teleost larvae - IV,

Changes in the epithelium related to fat absorption in the anteriomedium part of the intestine after feeding.

Jpn. J. Ichthyol. 19, l5-25 (In Japanese).

Tanaka, M. (1972b) Studies on the structure and function of the digestive system in teIeost larvae - V.

Epithelial changes in the posterior gut and protein ingestion. Jpn. J. Ichthyol. 19, 172-180. [In Japanese).

Tandler, A., Kanazawa, A. & Sakamoto, M. (1982) Effect of food attractants on appetite and growth rate of

gilthead seabream, Sparus aurata L. J. Fish Biol. 20, 673-681.

Tandler, A., Watanabe, T., Satoh, S. & Fukusho, K. (1989) The effect of food depravation on the fatty acid

and lipid profile of red seabream (Pagrus major) larvae. Br. J. Nutr. 62, 349-361.

Tandler, A. & Kolkovski, S. (1991) Rates of ingestion and digestion as limiting factors in the successful use

of microdiets in Sparus aurata larval rearing. In: Larvi'95 Fish and Shellfish Larviculture Symposium. (Ed

by P. Lavens, Jaspers, E. & Roelants, I.). pp. 169. European Aquaculture Society. Special Publication 24

Gent, Belgium.

Thorndyke, M., Holmgren, S., Nilsson, S. & Falkmer, S. (1984) Bombesin potentiation of the acetylcholine

response in isolated strips of fish stomach. Regul. Pept. 9, 350-355.

Thorndyke, M. & Holmgren, S. (1990) Bombesin potentiates the effect of acetylcholine on isolated strips of

fish stomach. Regul. Pept. 30, 125–135.

Thorsen, A., Fyhn, H.J. & Wallace, R. (1993) Free amino acids as osmotic effectors for oocyte hydration in

marine fishes. In: Physiology and biochemistry of fish larval development. (Ed. by Walther, B.T. & Fyhn,

H.J.). pp. 94–98. University of Bergen, Bergen.

Tocher, D.R., Mourente, G. & Sargent, J.R. (1997) The use of silages prepared from fish neural tissues as

enrichers for rotifers (Brachionus plicatilis) and Artemia in the nutrition of larval marine fish. Aquaculture

, 213-231.

Tookwinas, S (1990) Larvicuture of sea bass (Lates calcarifer) and grouper (Epinephelus malabaricus) in

Thailand, Advances in tropical aquaculture, AQUACOP, IFREMER, Actes. Coloq. 9, 645-659.

Tovar, D., Zambonino, J., Cahu, C., Gatesoupe, F.J., Vázquez-Juárez, R. & Lésel, R. (2002) Effect of live

yeast incorporation in compound diet on digestive enzyme activity in sea bas (Dicentrarchus labrax)

larvae. Aquaculture 204, 113-123.

Tucker, J.W. Jr. (1998) Marine fish culture. Kluger Academic Publishers, Massachusetts, E.U.A. 750 pp.

Ueberschär, B. (1993) Measurement of proteolytic enzyme activity: significance and application in larval fish

research. In: Physiological and biochemical aspects of fish development. (Ed. by Walther, B. T. & Fuhn,

H. J.). Univ. of Bergen, Norway.

Ugolev, A.M. (1965) Membrane (contact) digestion. Physiol. Rev. 45, 555-595.

Umeda, S. & Ochiai, A. (1973) On the development of the structure and function of the alimentary tract of the

yellowtail from the larval to the juvenile stage. Bull. Jpn. Soc. Sci. Fish. 39, 923-930. (In Japanese).

Umeda, S. & Ochiai, A. (1975) On the histologicat structure and function of digestive organs of the fed and

starved larvae of the yetlowtail, Seriola quinqueradiata. Jpn. J. Ichthyol. 21, 213-219. (In Japanese).

Van Damme, P, Janssen, G. & Ollevier, F. (1989) Proteolytic enzymes in Clarias gariepinus (Burchell 1822)

larvae fed with dry diets. Eur. Aquac. Soc. Esp. Public. 10, 255-256.

Van der Wal, E.J. & Nell, J.A. (1986) Effect of food concentration on the survival and growth of Australian

bass (Macquaria novemaculeata) larvae. Prog-Fish Cult. 48, 202-204.

Versichelle, D., Léger, P., Lavens, P. & Sorgeloos, P. (1989) L'utilisation d'artémia. In: Aquaculture. (Ed. by

G. Barnabé). pp. 241-259. Technique et Documentation, Lavoisier, Paris.

Vetter, R.D., Houdson, R.E. & Arnold, C. (1983) Energy metabolism in a rapidly developing marinefish eggs

the red drum Scienops ocellata. Can. J. Fish. Aquat. Sci. 40, 627-634.

Villamar, D.F. & Langdon, C.J. (1993) Delivery of dietary components to larval shrimp (Penaeus vannamei)

by means of complex microcapsules. Mar. Biol. 115, 635-642.

Vu, T.T. (1976) Étude du développement du tube digestif des larves de bar Dicentrarchus labrax (L.). Arch.

Zool. Exp. Gen. 117, 493-509.

Vu, T.T. (1983) Etude histoenzymologique des activities proteasiques dans le tube digestif des larves et des

adultes de bar, Dicentrarchus labrax (L). Aquaculture 32, 57-69.

Walford, J., Lim, T.M. & Lam, T.J. (1991) Replacing live foods with microencapsulated diets in the rearing

of seabass (Lates calcarifer) larvae; do the larvae ingest and digest protein-membrane microcapsules?

Aquaculture 92, 225-235.

Walford, J. & Lam T.J. (1993) Development of digestive tract and proteolytic enzyme activity in seabass

(Lates calcarifer) larvae and juveniles. Aquaculture 109, 187-205.

Wang, Y.L., Buddington, R.K. & Doroshov, S.I. (1987) Influence of temperature an yolk utilization by the

white sturgeon, Acipenser transmontanus. J. Fish. Biol. 30, 263-271.

Ware, D.M. (1975) Growth, metabolism, snd optimal swimming speed of a pelagie fish. J. Fish. Res. Board

Can. 32, 33-11.

Watanabe, T. (1981) Ingestion of horseradish peroxidase by the intestinal cells in larvae or juveniles of some

teleosts. Bull. Jpn. Soc. Sci. Fish. 57, 1299-1307,

Watanabe, T. (1982a) Intracellular digestion of horseradirh peroxidase by the intestinal cells of teleost larvae

and juveniles. Bull, Jpn. Soc. Sci. Fish. 48, 37-12.

Watanabe, T. (1982b) Lipid nutrition in fish. Comp. Biochem. Physiol. 73B, 1-16.

Watanabe, T., Kitajima, C. & Fujita, S. (1983) Nutritional value of ive organism used in Japan for mass

propagation fo fish: A review. Aquaculture 34, 115-143.

Watanabe, T. (1984a) An ultrastuctural study of intracellutar digestion of horseradish peroxidase by the rectal

epithelium cells in larvae of a freshwater cottid fish Cottus nozawae. Bull. Jpn. Soc. Sci. Fish. 50, 409-416.

Watanabe, T (1984b) Morphological and functional changes in rectal epirhelium cells of pond smelt dunng

postembrionic development. Bull. Jpn. Soc. Sci. Fish. 50, 805-814.

Watanabe, T. & Sawada, N. (1985) Larval development of digestive organs and intestinal absorptive

functions in the freshwater goby Chaenogobius annularis. Bull. Tohoku Reg. Fish. Res. Lab. 37, 1-10.

Watanabe, T., Satoh, S. & Takeuchi, T. (1988) Avialability of minerals in fishmeal to fish. Asian Fish. Sci. 1,

-195.

Watanabe, T. & Kiron, V. (1994) Prospects in larval fish dietetics. Aquaculture 124, 223-251.

Weinberg, S. (1976) Morphology of the intestine of the goldfish (Carassius auratus). Bijdr. Dierk. 46, 35-46.

Werner, R.G. & Blaxter, J.H.S. (1980) Growth and survival of larval herring (Clupea harengus) in relation to

prey density. Can. J. Fish. Aquat. Sci. 37, 1063-1069.

Wilson, R.P. (1994) Utilization of dietary carbohydrate by fish. Aquaculture 124, 67–80.

Wolbach, S.B. (1947) Vitamin A deficiency an excess in relation to skeletal growth, J. Bone Jt Surg. 29, 171-

Yamamoto, T.S. (1982) Ulltrastructural basis of intestinal absorption. Arch. Histol. Jpn. 45, 1-22.

Yamamoto, T.S. & Kobayashi, W. (1992) Closure of micropyle during embrionyc development of some

pelagic fish eggs. J. Fish Biol. 40, 225-241.

Yancey, P.H., Clark, M.E., Hand, S.C., Bowlus, R.D. & Somero, G.N. (1982) Living with water stress:

evolution of osmolyte systems. Science 217, 1214–1222.

Yúfera, M., Sarasquete, M.C. & Fernández-Díaz, C. (1996) Testing protein-walled microcapsules for the

rearing of first-feeding gilthead sea bream (Sparus aurata L.) larvae. Mar. Freshwater Res. 47, 211-216.

Yúfera, M., Pascual, E. & Fernández-Diaz, C. (1999) A highly efficient microencapsulated food for rearing

early larvae of marine fish. Aquaculture 177, 249–256.

Zambonino-Infante J.L. & Cahu, C. (1994a) Development and response to a diet change of some digestive

enzymes in sea bass (Dicentrarchus labrax) larvae. Fish. Physiol. Biochem. 12A, 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. Comp. Biochem. Physiol. 109A, 209-212.

Zambonino-Infante, J.L., Cahu, C.L. & Péres, A. (1997) Partial substitution of di- and tripeptides for native

proteins in sea bass diet improves Dicentrarchus labrax larval development. J. Nutr. 127, 608–614.

Zambonino-Infante, J.L. & Cahu, C. (1999) High dietary lipid levels enhance digestive tract maturation and

improve Dicentrarchus labrax larval development. J. Nutr. 129, 1195–1200.

Zambonino-Infante, J.L. & Cahu, C.L. (2001) Ontogeny of the gastrointestinal tract of marine fish larvae.

Comp. Biochem. Physiol. 130C, 477-487

Zeitoun, I.H. (1973) Influence of salinity on protein requirements of rainbow trout (Salmo gairdneri)

fingerlings. J. Fish. Res. Board. Can. 30, 1867-1873.

How to Cite

Civera-Cerecedo, R., Alvarez-González, C., & Moyano-López, F. (2019). Nutrición y alimentación de larvas de peces marinos. Avances En Nutrición Acuicola. Retrieved from https://nutricionacuicola.uanl.mx/index.php/acu/article/view/187

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