Nutrición de Larvas de Camarón
Resumen
Se examina la literatura existente sobre la nutrición de larvas de camarones peneidos. Esta
revisión cubre dos aspectos generales: requerimientos nutricionales y alimento vivo-dietas
artificiales. Los estudios sobre los requerimientos nutricionales se inician a principios de la
década de los 80 en Penaeus japonicus , analizándose los efectos de los niveles de proteína,
lípidos y carbohidratos en el crecimiento y supervivencia de las larvas. La escencialidad de
fuentes dietéticas que contengan esteroles y fosfolípidos es examinada. Se discute el empleo
de aminoácidos libres en las dietas purificadas y su uso por las larvas y se informa sobre la
utilización de sustancias promotoras del crecimiento. A pesar de la importancia de la fase
larval dentro del cultivo del camarón, poco se ha avanzado en el conocimiento de los
requerimientos nutricionales si lo comparamos con los datos obtenidos para otras etapas del
ciclo de vida. El desarrollo en la tecnología en la elaboración de dietas artificiales y el
enriquecimiento del alimento vivo, han permitido ir dilucidando algunas interrogantes sobre
las necesidades nutricionales de las larvas, sin embargo, sólo el logro de dietas comparables
con el alimento vivo en su capacidad de ingestión, digestión y absorción, harán posible una
amplia investigación sobre sus requerimientos nutricionales. Un aspecto que contribuiría
grandemente a lograr este objetivo, sería la elaboración de dietas estándares de referencia y
el acercamiento a una metodología de investigación común.
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Abdel-Rahman, S. A., A. Kanazawa y S-I. Teshima. (1979). Effects of dietary carbohydrate on the growth
and the levels od the hepatopancreatic glycogen and serum glucose of prawn. Bull. Jap. Soc. Sci.
Fish. 45(12):1491-1494.
Admiral, W., H. Peletier, R. W. Laane. (1986). Nitrogen metabolism of marine planktonic diatoms:excretion,
assimilation and cellular pools of free aminoacids in seven species with different cell size. J. Exp.
Mar. Biol. Ecol. 98:241-263.
Alfonso, E. (1996). Larvicultura de Camarones Marinhos. Em: Anais do Primeiro Workshop do Estado do
Ceara sobre Cultivo de Camarao Marinho. T.C.V.Gesteira e A.J.P. Nunes (eds). Fortaleza, Ceara,
Brasil, pp:86-100
Alvarado, F y J. W. L. Robinson. (1979). A kinetic study of the interaction between aminoacids and
monosacharides of the intestinal brush-border membrane. J. Phys. 295:457-475.
Andrews, J. V., L. V. Sick y G. J. Baptistv. (1972). The influence of dietary protein and energy level on growth
and survival of penaeid shrimp. Aquaculture 1:341-347.
Besbes, R y J. Guillaume. (1989). Effect of protein level and iron supplementation on the growth and survival
of Penaeus japonicus larvae fed microboun diets. ICES Council Meeting, Collected Papers, 15 pp.
Bottino, M., J. Gennity, M. Lilly, E. Simmons y G. Finne. (1980). Seasonal and nutritional effects of the fatty
acids of three species of shrimp, Penaeus setiferus, P. aztecus y P. duorarum. Aquaculture
:139:148.
Briggs, M. R., J. H. Brown y C. J. Fox. (1994). The effect of dietary lipid and lecithin levels on the growth,
survival, feeding, efficiency, production and carcass composition of postlarval Penaeus monodon
Fabricius. Aquaculture and Fisheries Management 25:279-294.
Brown, M. R., S. W. Jeffrey, J. K. Volkman y G. A. Dunstan. (1997). Nutritional properties of microalgae for
mariculture. Aquaculture 151:315-331.
Camara, M. R., P. Cotteau y P. Sorgeloos. (1997). Dietary phosphatidylcholine requirements in larval and
postlarval Penaeus japonicus Bate. Aquacult. Nutr. 3(1):39-47.
Catacutan, M. R. (1991). Growth and fatty acid composition of Penaeus monodon juveniles fed various lipids.
Bamidgeh 43:47-56.
Coloso, R. Y L. J. Cruz. (1980). Preliminary studies in some aspects of amino acids biosynthesis in juvenile
Penaeus monodon Fabricius:I. Incorporation of 14C from (U-14 C) to amino acids of precipitable
protein. Bull. Phil. Biochem. Soc. 3(1-2), 12-2
Coutteau, P., M. R. Camara y P. Sorgeloos. (1996). The effect of different levels and sources of dietary
phosphatidylcholine on the growth, survival, strees resistance and fatty acids composition of
postlarval Penaeus vannamei. Aquaculture 147:261-273
Cowey, C. D. Y J. R. Sargent. (1975). Nutrition. In: W. Hoar y R. Randall (Eds.). Fish Physiology, vol. III,
Acad. Press, London, pp. 1-69.
Chamberlain, G. W. (1995). Frontiers in shrimp nutrition research.Pp:108-117. In: Browdy, C. L. Y L. S.
Hopkins (Eds.). Swimming throgh troubled water. Proceedings Special Session Shrimp Farming,
Aquaculture 95.
Chen, H-Y. (1993). Recent advances in nutrition of Penaeus monodon. J. World Aquac. Soc. 24(2):231-240.
Chen, H. y J. S. Jenn. (1991). Combined effects of dietary phosphatidylcholine and cholesterol on the growth,
survival and body lipid composition of marine shrimp, Penaeus penicillatus. Aquaculture 96:167-178.
Chen, H.Y., T. Len y I. Roeleants. (1992). Quantification of arginine requirement of juvenile marine shrimp
Penaeus monodon using microencapsulated arginine. Mar. Biol. 114:229-233.
D Abramo, L. y D. E. Conklin (1995). New developments in the understanding of tne nutrition of penaeid and
caridean species of shrimp. Pp:95-117. In: Browdy, C. L. Y J. S. Hopkins (Eds). Swimming trough
troubled water. Proccedings Special Session Shrimp Farming Aquaculture 95.
Deshimaru, O. (1981). Studies on nutrition and diet for prawn, Penaeus japonicus. Mem. Kagoshima Fish.
Exp. Sta. 12:1-118.
Deshimaru, O. y Y. K. Kuroki. (1975). Studies on a purified diet for prawn. V. Evaluation of casein
hydrolyzates as a nitrogen source. Bull. Jap. Soc. Sci. Fish. 41:301-304.
Emerson, W. D. (1984). Predation and energeties of Penaeus indicus (Decapoda:Penaeidae) larvae feeding on
Brachionus plicatilis and Artemia nauplii. Aquaculture 38(3):201-209.
Fletcher, D. J., M. Kumlu, C. Fisher. (1995). Growth and survival of Penaeus indicus larvae fed on the
nematode Panagrellus redivivus enriched with astaxanthin and various marine lipids. World
Aquaculture Soc., Aquaculture 95, Canada.
Fyhn, H. J. (1989). First feeding of marine fish larvae: are free aminoacids the source of energy?. Aquaculture
:111-120.
Gabsa, P. G. (1982). Recent development in design and management of small scale hatchery for Penaeus
monodon in the Philippines. FAO, UNDP. Develp. Coord. Progr., pp.77-86.
Galgani, M. L. y AQUACOP. (1988). Essais de sustitution des algues vivantes par des microparticules inertes
pour l alimentation des larves zoe de crevettes peneides. Aquaculture 69:115-127.
Gallardo, P., E. Alfonso, G. Gaxiola, L. Soto y C. Rosas. (1995). Feeding schedule for Penaeus setiferus
larvae based on diatoms (Chaetocerus ceratosporum), flagellates (Tetraselmis chuii) and Artemia
nauplii. Aquaculture 131:239-252.
García, T. , G. Mrquez, R. Gelabert, O. Carrillo, L. Vidal y U. Becquer. (1997). Evaluación de la levadura
torula seca en dietas microparticuladas para la alimentación de larvas y postlarvas del camarón
blanco Penaeus schmitti. IV Congreso Ecuatoriano de Acuicultura, Guayaquil.
Gilles, R. (1979). Intracellular organic osmotic effectors In: R. Gilles (Ed), Mechanism of osmoregulation in
animals. Wiley and Sons, Chichester, pp. 111-154.
Glencross, B. D. y D. M. Smith. (1997). Comparison of triacylglycerols, esterified and free fatty acids as
neutral lipid sources in the diet of the prawn Penaeus monodon. Aquaculture 159:67-85.
Hudinaga, M. (1942). Reproduction, development and rearing of Penaeus japonicus Bate. Japan J. Zool.
(2):305-393.
Jones, D. A., K. Kurmaly y A. Arshard. (1987). Penaeid shrimp hatchery trials using microencapsulated
diets. Aquaculture 64:133-146.
Jones, D. A., M. S. Kamarudin y L. Le Vay. (1993). The potential for replacement of live feeds in larval
culture. J. World Aquacult. Soc. 24(2):199-210.
Jones, D., A. Kanazawa y K. Ono. (1979). Studies on the nutrition requirements of the larval stages of
Penaeus japonicus using microencapsulated diets. Mar. Biol., 54:261-267.
Kanazawa, A. (1992). Penaeid nutrition,. In: G. D. Pruder, C. Langdon y D. Conklin (Eds.). Proceedings of the
nd Int. Conf. On Aquaculture Nutrition:Biochemical and Physiological Approach to Shellfish
Nutrition, louisiana State Univ, Baton Rouge, L.A., pp:98-105.
Kanazawa, A. y S. Teshima. (1981). Essential amino acids of the prawn. Bull Jap. Soc. Sci. Fish. 47, 1357-
Kanazawa, A., S-I Teshima y M. Sakamoto. (1985). Effects of dietary lipids, fatty acids and phospholipids on
growth and survival of prawn (Penaeus japonicus) larvae. Aquaculture 50:39-49.
Kanzawa, A. (1984). Nutrition of penaeid prawns and shrimps. Proceedings First Int. Conf. Culture Penaeid
Prawns, Philippines, pp:123-130.
Khannapa, A. (1979). Effect of various protein levels on growth and survival rates of Penaeus monodon. Q.
Res. Pep., Aquacult. Dep. SE Asian Fish. Dev. Cent. 1:24-28.
Kontara, E. K. (1986). Preliminary results in larval rearing of tiger shrimp Penaeus monodon that recieve
Artemia nauplii fed with lipid containing omega 3-HUFA. Bull. Brackishwat. Aquacult. Dev. Cent.
Japan, 8(1):43-52.
Kuban, F. D., A. L. Lawrence y J. S. Wilkenfield. (1985). Survival, metamorfosis and growth of larvae from
four penaeid species fed six food combinations. Aquaculture 47:151-162.
Kumlu, M. y D. A. Jones. (1994). Recent advances in the development of microencapsulated diets for shrimp
larval culture. Pp. 205-208. In: Kas, H. Y A. Hincal (Eds). 9th Int. Symp. Microencapsulation,
Turquía.
Kumlu, M. y D. A. Jones. (1995). The effect of live and artificial diets on growth, survival and trypsin activity in
larvae of Penaeus indicus. J. World Aquacult. Soc. 26(4):406-415.
Kurmanly, K., D. A. Jones, A. B. Yule y J. East. (1989). Comparative analysis of the growth and survival of
Penaeus monodon Fabricius larvae, from protozoea I to postlarva I, on live feeds, artificial diets and
on combinations of both. Aquaculture 81 :27-35.
Laveus P., G. Merchie y P. Sorgeloos. (1998). Critical reviews of the larval fish and crustacean feeding
methods with ascorbic acid enriched diets: effects on fish and shrimp growth, stress and dissease
resistance. World Aquaculture 98, Las Vegas, U.S
Le Moullac, G., A. Van Wormhoudt y AQUACOP. (1994). Adaptation of digestive enzymes to dietary protein,
carbohydrate and fibre levels and influence of protein and carbohydrate quality in Penaeus vannamei
larvae (Crustacea, Decapoda). Aqua. Living. Resour. 7: 203-210.
Le Vay, L., A. Rodriguez, M. S. Kamarudin y D. A. Jones. (1993). Influence of live and artificial diets on
tissue composition and trypsin activity in Penaeus japonicus larvae. Aquaculture 118:287-297.
Leger, P., G.f. Bieber y P. Sorgeloos. (1986). Promising results of larval rearing of Penaeus stylirostris using
a prepared diet as algal substitute and for Artemia enrichment. J. World Aquacult. Soc. 16:354-367.
Lion, C. H. Y S. D. Yang. (1994). Dietary methionine requirements of Penaeus monodon. Ann. Meeting
Taiwan Fish. Soc. Doc 5-8.
Lovett, D. L. Y D. L. Felder. (1989). Ontogeny of gut morphology in the white shrimp Penaeus setiferus
(Decapoda, Penaeidae). J. Morphology 201:253-272.
Lui, C. W., B. A. Sage y J. D O Connor. (1974). Biosynthesis of lipovitellin by the crustacean ovary. J. Exp.
Zool., 188:289-296.
Millamena, O. M. Y E. T. Quinitio. (1985). Lipids and essential fatty acids in the nutrition of Penaeus
monodon larvae. Proceed. First. Int. Conf. Cult. Penaeid Prawns, Philippines, pp.181.
Millamena, O. M., M. N. Bautista, A. Kanazawa. (1996). Valine requirement of postlarval tiger shrimp
Penaeus monodon. Aquaculture Nutrition.
Montana, M. y J. C. Navarro. (1996). Fatty acids of wild and cultured Penaeus vannamei larvae from
Ecuador. Aquaculture 142 (3-4):259-268.
Mourente, G. A. Medina, S. González y A. Rodríguez. (1995), Variations in lipid content and nutritional
status during larval development of marine shrimp Penaeus keraturus. Aquaculture 130 (2-3):187-
Niall, L., N. Mac Donald, J.R. Stark y M. Keith. (1989). Digestion and nutrition in the prawn Penaeus
monodon. J. World Aquac. Soc. 20(1).
Ozkizilcik, S. y F. L. Chu. (1994). Uptake and metabolism of liposomes by Artemia nauplii. Aquaculture
:131-141.
Pedrazzoli, A., C. Molina, M. Montoya, S. Townssend, A. Leon-Hing, Y. Paredes y J. Caldern. (1995).
Recent advances on nutrition of Penaeus vannamei in Ecuador. Reviews in Fisheries Science.
Rees, J. F., Klure, S. Pryatiratitivorakul, P. Sorgeloos y P. Menasveta. (1994). Highly unsaturated fatty
acid requirements of Penaeus monodon postlarvae: an experimental aproach based on Artemia
enrichment. Aquaculture 122:193-207.
Rodriguez, A., L. LeVay, G. Mourente y D. A. Jones. (1994). Biochemical composition and digestive enzyme
activity in larvae and postlarvae of Penaeus japonicus during herbivorous and carnivorous feeding.
Mar. Biol. 118:45-51.
Salhi, M., M. Izquierdo, C. Hernandez Cruz, M. Gonzlez, H. Fernández Palacios. (1994). Effect of lipid and
n-3 HUFA levels in microdiets on growth, survival and fatty acid composition of larval gilthead
seabream (Sparus aurata). Aquaculture 124:275-2
Shewbart, K. L., W. L. Mies y P. D. Ludwing. (1972). Identification and quantitative analysis of the
aminoacids present in protein of the brown shrimp Penaeus aztecus. Mar. Biol., 64-67.
Shiau, S-Y. (1998). Nutrient requirements of penaeid shrimp. Aquaculture 164:77-93.
Shiau, S. Y. y C. Y. Peng. (1992). Utilization of different carbohydrates at different dietary protein levels in
grass prawn, Penaeus monodon, reared in sea water. Aquaculture 101:241-250.
Tacon, A. (1989). Nutrición y alimentación de peces y camarones cultivados. Manual de Capacitación. FAO,
Proyecto Aquila II. Documento de Campo no.4, pp.1-572.
Takhaert, W., M. R. Camara y P. Sorgeloos. (1991). The effect of dietary phosphatidylcholine in postlarval
penaeid shrimp. II Preliminary culture results. In: Lavi 91 Fish and Crustacean Larviculture
Symposium. Spec. Publ. 15:80-83.
Teshima, S-I, A. Kanazawa, H. Sasada y M. Kawasaki. (1982). Requirements of the larval prawn Penaeus
japonicus, for cholesterol ans soybean phospholipids. Mem. Fac. Fish. Kagoshima Univ. 31:193-199.
Teshima, S-I, A. Kanazawa y M. Sakamoto. (1982). Microparticulate diets for the larvae of aquatic animals.
Min. Rev. Data File Fish. Res., 2:67-86.
Teshima, S-I, A. Kanazawa y H. Sasada. (1983). Nutritional value of dietary cholesterol and other sterol to
larval prawn Penaeus japonicus Bate. Aquaculture 31:159-167.
Teshima, S.I. y A. Kanazawa. (1984). Effects of protein, lipid and carbohydrate levels in purified diets on
growth and survival rates of the prawn larvae. Bull. Jap. Soc. Sci. Fish. 50(10):1709-1715.
Teshima, S-I, A. Kanazawa y Y. Kakuta. (1986a). Effects of dietary phospholipids on growth and body
composition of the juvenile prawn. Bull. Jap. Soc. Sci. Fish., 52:155-158.
Teshima, S-I, A. Kanazawa y Y. Kakuta. (1986b). Role of dietary phospholipids in the transport of C14
tripalmitin in prawn. Bull. Jap. Soc. Sci. Fish., 52:515-523.
Teshima, S-I, A. Kanazawa y Y. Kakuta. (1986c). Effects of dietary phospholipids on lipid transport in the
juvenile prawn. Bull. Jap. Soc. Sci. Fish., 52:159-163.
Teshima, S-I, A. kanazawa y M. Yamashita. (1986). Dietary value of several proteins and suplemental
aminoacids for larvae of the prawn Penaeus japonicus .Aquaculture 51: 225-235.
Teshima,S-I, A. Kanazawa y S. Koshio. (1993). Recents developments in nutritional and microparticulate
diets of larval prawns ISR. J. Aquacult. Bamidgeh, 45(4):175-184.
Tobias-Quinitio, E. Y C. Villegas. 1982. Growth, survival and macronutrient composition of Penaeus
monodon abricius larvae fed with Chaetoceros calcitrans and Tetraselmis chui. Aquaculture 29:253-
Xu, J., L. Weifeng y L. Daozheng. (1988). The effects of promotor on the promoting growth of Penaeus
orientalis. Mar. Sci. Haiyang-Xexue 5:35-39.
Zheng, W., W. Li, A. Cai y W. Chen. (1994). A study on the ingestion, absortion and utilization of Penaeus
japonicus . Acta Hydrobiol. 18(11):59-64.
