BIOENERGÉTICA EN LA FORMULACION DE DIETAS Y ESTANDARES DE ALIMENTACION PARA LA ACUACULTURA DEL SALMON: PRINCIPIOS, MÉTODOS Y APLICACIONES
Palabras clave:
, peces, nutrición, energética, dietas, alimentación, desechos.Resumen
Formular una dieta significa traducir los requerimientos de nutrientes, en términos de una mezcla balanceada de ingredientes, en un alimento para un cierto grupo de animales. Las dietas por lo tanto, deben cubrir las necesidades diarias de energía y nutrientes para sostener el mantenimiento, crecimiento y reproducción del animal cuando se alimenta ad libitum o a un nivel cercano a la saciedad. Sin embargo, el consumo de alimento o la distribución del alimento esta determinado primeramente por la concentración de nutrientes biodisponibles productores de energía (principalmente proteína y lípidos en dietas para salmón). El éxito en las formulaciones de dietas y el desarrollo de estándares de alimentación puede lograrse por una comprensión de la bioenergética o energética nutricional. Debe ponerse un mayor énfasis sobre la determinación del coeficiente de digestibilidad de energía y proteína en los ingredientes de los alimentos. La optimización del balance proteína: energía en dietas formuladas para maximizar el metabolismo y el contenido de energía neta en dietas completas es el próximo paso para mejorar la eficiencia nutricional y económica. Este paso es particularmente esencial en el contexto de las recientes prácticas de alimentación con dietas altas en energía (grasa), las cuales también disminuyen la contaminación generada por operaciones acuícolas.Los principios y procedimientos de los estudios de bioenergética sobre formulas dietarias y regímenes alimenticios en términos de eficiencia nutricional, costo-beneficio y efectos positivos-negativos serán discutidos para varias dietas experimentales.Descargas
Citas
Blaxter, K.L. (1989) Energy metabolism in animals and man. Cambridge University Press,
Cambridge. 336 p.
Brafield, A.E. y Llewellyn, M.J. (1982) Animal Energetics. Blackie & Son Ltd., Glasgow. 168
p.
Brett, J.R. (1972) The metabolic dem and for oxygen in fish, particularly salmonids and a
comparison with other vertebrates. Respir. Physiol. 14, 151170.
Brett, J.R. and Groves, T.D.D. (1979) Physiological energetics. In: Fish Physiology, Vol. VIII.
Ed. by Hoar et al., p. 279352. Academic Press, New York.
Brody, S. (1945) Bioenergetics and Growth. Reinhold Publishing Co. Reprinted 1974 by
Hafner Press, New York. 1023 p.
Cho, C.Y. (1982) Effects of dietary protein and lipid levels on energy metabolism of rainbow
trout (Salmo gairdneri). Energy Metabolism of Farm Animals. Proc. of the 9th Symposium,
Lillehammer, Norway. Ed. by A. Ekern and F. Sundstol. EAAP Publ. No. 29, p. 176179.
Cho, C.Y. (1987) La energía en la nutrición de los peces. Páginas 197-244 en J. Espinosa de los
Monteros y U. Labarta, editores. Nutricíon en acuicultura, Volumen II. Plan de Formación
de Técnicos Superiores, Programa Especial de I + D de Acuicultura. Comisión Asesora
de Investigación Científica y Técnica (CAICYT), Madrid, España.
Cho, C.Y. (1992) Feeding systems for rainbow trout and other salmonids with reference to
current estimates of energy and protein requirements. Aquaculture 100, 107-123.
Cho, C.Y. and Kaushik, S.J. (1990) Nutrition energetics in fish: energy and protein utilization
in rainbow trout (Salmo gairdneri). World Review of Nutrition and Dietetics 61, 132-
Cho, C.Y. and Kaushik, S.J. (1985) Effects of protein intake on metabolizable and net energy
values of fish diets. Proc. of International Symposium on Fish Feeding y Nutrition, Aug.
, 1984, Aberdeen, U.K. by Fisheries Society of the British Isles. Academic Press,
London. 496 p.
Cho, C.Y. and Slinger, S.J. (1979) Apparent digestibility measurement in feedstuffs for rainbow
trout. Proc. World Symp. on Finfish Nutrition and Fishfeed Technology, Hamburg,
Germany. Vol. II, p. 239247.
Cho, C.Y. and Slinger, S.J. (1980) Effect of water temperature on energy utilization in rainbow
trout (Salmo gairdneri). Proc. 8th Symp. on Energy Metabolism, Cambridge, U.K. p.
Cho, C.Y. and Watanabe, T. (1986) Dietary energy and lipid requirements of rainbow trout
(Salmo gairdneri) at different water temperatures. Energy Metabolism of Farm Animals.
Proc. of the 10th Symposium, Airlie, Virginia. 381p.
Cho, C.Y., Bayley, H.S. and Slinger, S.J. (1975) An automated fish repirometer for nutrition
studies. Proc. 28th Ann. Meeting of Can Conf. for Fish. Res., Vancouver, B.C.
Cho, C.Y., Bayley, H.S. and Slinger, S.J. (1976) Energy metabolism in growing rainbow trout:
Partition of dietary energy in high protein and high fat diets. Proc. 7th Symp. on Energy
Metabolism, Vichy, France. p. 299302.
Cho, C.Y., Cowey, C.B. and Watanabe, T. (1985) Finfish Nutrition in Asia. Methodological
approaches to research and development. International Development Research Centre,
Ottawa. 154 p.
Cho, C.Y., Hynes, J.D., Wood, K.R and Yoshida, H.K. (1991) Quantitation of fish culture
wastes by biological (nutritional) and chemical (limnological) methods; the development
of high nutrient dense (HND) diets. Pages 3750 in C.B. Cowey and C.Y. Cho, editors.
Nutritional Strategies and Aquaculture Waste. Proceedings of the 1st International
Symposium on Nutritional Strategies in Management of Aquaculture Waste. Fish
Nutrition Research Laboratory, University of Guelph, Ontario, Canada. 275p.
Cho, C.Y., Hynes, J.D. Wood, K.R. and Yoshida, H.K. (1994) Development of high nutrientdense, low pollution diets and prediction of aquaculture wastes using biological
approaches. Aquaculture 124, 293-305.
Cho, C.Y., Slinger, S.J. and Bayley, H.S. (1982) Bioenergetics of salmonid fishes: Energy
intake, expenditure and productivity. Comp. Biochem. Physiol. 73B, 2541.
Choubert, G.Jr., Noue, J. de la and Luquet, P. (1979) Continous quantitative automatic collector
for fish feces. Prog. FishCult. 41, 6467.
Cowey, C.B. (1975) Aspects of protein utilization by fish. Proc. Nutr. Soc. 34, 5763.
Emmans, G.C. (1994) Effective energy: a concept of energy utilization applied across species.
Br. J. Nutr. 71, 801-821.
Farrell, D.J. (1974) General principles and assumptions of calorimetry. In: Energy Requirements
of Poultry. p. 124. British Poultry Science Ltd.
Forster, R.P. and Goldstein, L. (1969) Formation of excretory Products. In: Fish Physiology
Vol. I, p. 313350 ed. by W.S. Hoar y D.J. Ryall. Academic Press, New York.
Hunn, J.B. (1982) Urine flow rate of fresh water of salmonids: A Review. Prog. FishCult. 44,
-125.
Iwama, G.K. and Tauz.A.F. (1981) A simple growth model for salmonids in hatcheries. Can. J.
Fish. Aquat. Sci., 38: 649 - 656.
Kaushik, S.J. and Cowey C.B. (1991) Dietary factors affecting nitrogen excretion by fish.
Pages 3 19 in C.B. Cowey and C.Y. Cho, editors. Nutritional Strategies and Aquaculture
Waste. Proceedings of the 1st International Symposium on Nutritional Strategies in
Management of Aquaculture Waste. Fish Nutrition Research Laboratory, University of
Guelph, Ontario, Canada. 275p.
Kaushik, S.J. and Gomes, E.F. (1988) Effect of frequency of feeding on nitrogen and energy
balance in rainbow trout under maintenance conditions. Aquaculture 73, 207-216.
Kleiber, M. (1975) The fire of life. Robert E. Kleiber Publishing Co., New York. 453 p.
Martin, A.K. and Blaxter, K.L. (1965) The energy cost of urea sythesis in sheep. In: Energy
Metabolism. Ed. K.L. Blaxter. p. 8391, Academic Press, New York.
Nose, T. (1960) On the digestion of food protein by gold fish (Carassius auratus L.) and
rainbow trout (Salmo irideus G.). Bull. Freshwater Fish. Res. Lab. 10, 2328.
National Research Council (NRC) (1981) Nutritional energetics of domestic animals and glossary
of energy terms. 2nd rev. ed. National Academy Press, Washington, D.C. 54p.
National Research Council (NRC). (1993) Nutrient requirements of fish. National Academy
Press, Washington, D.C. 114p.
Ogino, C., Kakino, J. and Chen, M.S. (1973) Determination of metabolic fecal nitrogen and endogenous nitrogen excretion of carp. Bull. Jap. Soc. Sci. Fish. 39, 519-523.
OHara, J. (1971) A continously monitored respiration chamber for fish. Water Res. Pergamon
Press 5, 143145.
Pierce, R.J. and Wissing, T.E. (1974) Energy cost of food utilization in the bluegill. Trans. Am.
Fish, Soc. 103, 3845.
Pullar, J.D. and Webster, A.J.F. (1977) The energy cost of fat and protein deposition in the rat.
Br. J. Nutr. 37, 355363.
Ross, L.G., McKinney, R.W., Cardwell, S.K., Fullarton, J.G., Roberts, S.E.J. and Ross, B.
(1992) The effects of dietary protein content, lipid and ratio level on oxygen consumption
and specific dynamic action in Oreochromis niloticus L. Comp. Biochem. Physiol. 103A,
-578.
Satoh, S., Cho, C.Y. and Watanabe, T. (1992) Effect of fecal retrieval timing on digestibility of
nutrients in rainbow trout diet with the Guelph and TUF Feces Collection Systems.
Nippon Suisan Gakkaishi 58, 1123-1127.
Smith, R.R. (1971) A method for measuring digestibility and metabolizable energy of feeds.
Prog. FishCult. 33, 132-134.
Smith, R.R., Rumsey, G.L. and Scott, M.L. (1978) Net energy maintenance requirement of
salmonids as measured by direct calorimetry: Effect of body size and environmental
temperature. J. Nutr. 108, 10171024.
Solomon, D.J. and Brafield, A.E. (1972) The energetics of feeding metablolism and growth of
perch (Perca fluviatilis L.) J. Anim. Ecol. 41, 699-718.
Watanabe, T., Takeuchi, T. and Ogino, C. (1979) Studies on the sparing effect of lipids on
dietary protein in rainbow trout (Salmo gairdneri). Proc. World Symp. on Finfish Nutrition
and Fishfeed Technology, Hamburg, Germany. Vol. I p. 113125.
Windell, J.T., Foltz, J.W. and Sarokon, J.A. (1978) Methods of fecal collection and nutrient
leaching in digestibility studies. Prog. FishCult. 40, 5155.