Digestibilidad Aparente de Energía, Proteína y Materia Seca de Ingredientes Utilizados en Alimentos Balanceados para el Camarón Blanco del Pacífico Litopenaeus vannamei

Autores/as

  • A.J. Siccardi III Texas A&M University System,
  • A.L. Lawrence Texas A&M University System,
  • D.M. Gatlin III Texas A&M University System,
  • J.M. Fox Texas A&M University System,
  • F.L. Castille Texas A&M University System,
  • M. Perez-Velazquez Texas A&M University System,
  • M.L. González-Félix Universidad de Sonora

Palabras clave:

digestibilidad aparente, energía, proteína, materia seca

Resumen

Con el fin de formular alimentos que no únicamente cubran los requerimientos nutricionales de los organismos, sino
que a la vez sean del menor costo posible y que causen la menor contaminación, se requieren de coeficientes
precisos de proteína y energía digerible de ingredientes comúnmente utilizados en la elaboración de alimentos
balanceados para camarón. En este estudio se hicieron determinaciones in vivo de la digestibilidad aparente de
energía (DAE), proteína cruda (DAPC) y materia seca (DAMS) de treinta ingredientes utilizados en alimentos
balanceados para L. vannamei, entre los que se incluyeron harinas de pescado, harinas de origen marino, harinas
prácticas de origen animal y vegetal e ingredientes purificados. Así mismo, se determinó in vitro la DAPC de
ingredientes seleccionados utilizando 0.20% o 0.0002% de pepsina. Los coeficientes de DAMS variaron en un
intervalo de 4.3% para tierra de diatomeas a 96.5% para gelatina. La DAPC varió de 59.1% para gluten de maíz a
99.7% para gelatina. La DAE varió de 65.4% para gluten de maíz a 102.2% para gelatina. Los valores de DAPC in
vivo tuvieron una correlación positiva (r = 0.55; P < 0.05) con los de DAPC in vitro obtenidos utilizando 0.0002%
de pepsina pero no con los obtenidos utilizando 0.20% de pepsina.

Descargas

Los datos de descargas todavía no están disponibles.

Citas

Akiyama, D.M., Coelho, S.R., Lawrence, A.L., Robinson, E.H., 1989. Apparent digestibility of feedstuffs

by the marine shrimp Penaeus vannamei Boone. Nippon Suisan Gakkaishi 55, 91-98.

Akiyama, D.M., Dominy, W.G., Lawrence, A., 1992. Penaeid shrimp nutrition. In: Fast, A.W., Lester, J.

(Eds.), Marine Shrimp Culture: Principles and Practices. Elsevier, Amsterdam, pp. 535-567.

Anderson, S.J., Lall, S.P., Anderson, D.M., McNiven, M.A., 1993. Evaluation of protein quality in fish

meals by chemical and biological assays. Aquaculture 115, 305-325.

AOAC, 1990. Official Methods of Analysis, 15th ed., Vol. 1. Association of Official Analytical Chemists,

Arlington, VA, USA

Brown, P.B., Williams, C.D., Robinson, E.H., 1986. Evaluation of methods for determining digestion

coefficients for adult red swamp crayfish Procambarus clarkii. Journal of the World Aquaculture

Society 17, 19-24.

Brown, P.B., Robinson, E.H., Clark, A.E., Lawrence, A.L., 1989. Apparent digestible energy coefficients

and associative effects in practical diets for red swamp crayfish. Journal of the World Aquaculture

Society 20, 122-126.

Brunson, R.P., Romaire, R.P., Reigh, R.C., 1997. Apparent digestibility of selected ingredients in diets for

white shrimp Penaeus setiferus L. Aquaculture Nutrition 3, 9-16.

Bureau, D.P., Hua, K., 2006. Letter to the Editor of Aquaculture. Aquaculture 252, 103-105.

Chen,J.C., Lin, C.Y., 1991. Lethal effects of ammonia and nitrite on Penaeus penicillatus juveniles at two

salinity levels. Comparative Biochemistry and Physiology 100C, 477-482.

Cho, C.Y., Slinger, S.J., Bayley, H.S., 1982. Bioenergetics of salmonid fishes: energy intake, expenditure ad

productivity. Comparative Biochemistry and Physiology 73B, 25-41.

Clark, D.J., Lawrence, A.L., Swakon, D.H.D., 1993. Apparent chitin digestibility in panaeid shrimp.

Aquaculture 109, 51-57.

Cordova-Murueta, J.H., Garcia-Carreno, F.L., 2002. Nutritive value of squid and hydrolyzed protein

supplement in shrimp feed. Aquaculture 210 371-384.

Cousin, M., 1995. Etude de l’utilisation des glucides et du rapport proteins-energie chez les deux especes de

crevettes peneides, Penaeus vannamei et Penaeus stylirostris. These, INRA Paris Grignon.

Cruz-Suarez, L.E., Ricque-Marie, D., Pinal-Mansilla, J.D., Wesche-Ebelling, P., 1994. Effect of different

carbohydrate sources on the growth of Penaeus vannamei: economical impact. Aquaculture 123,

-360.

Cuzon, G., Lawrence, A., Gaxiola, G., Rosas, C., Guillaume, J., 2004. Nutrition of Litopenaeus vannamei

reared in tanks or in ponds. Aquaculture 235, 513-551.

D’Abramo, L.R., Casttell, D., 1997. Research Methodology. In: D’Abramo, L/R/, Conklin, D.E., Akiyama,

D.E. (Eds.), Crustacean Nutrition. World Aquaculture Society, Baton Rouge, LA, USA, pp. 3-20.

Davis, D.A., Arnold, C.R., 1993. Evaluation of five carbohydrate sources for Penaeus vannamei.

Aquaculture 114, 285-292.

Davis, D.A., Arnold, C.R., 1995. Effects of two extrusion processing conditions on the digestibility of four

cereal grains for Penaeus vannamei. Aquaculture 133, 287-294.

Davis, D.A., Arnold, C.R., McCallum, I., 2002. Nutritional value of feed peas (Pisum sativum) in practical

diet formulations for Litopenaeus vannamei. Aquaculture Nutrition 8, 87-94.

Divakaran, S., 2005. Chromic oxide: The inert marker for in vivo digestibility studies in shrimp, problems

and solutions. Aqua Feeds: Formulation and Beyond 2, 28-29.

Dokken, Q.R., 1987. Effects of varying dietary macronutrient and energy rations on growth and survival of

Penaeus vannamei and Penaeus setiferus. Ph.D. Dissertation, Texas A&M University, College

Station, TX, 80 pp.

Ezquerra, J.M., Garcia-Carreno, F.L., Civera, R., Haard, N.F., 1997. pH-stat method to predict protein

digestibility in white shrimp (Penaeus vannamei). Aquaculture 157, 251-262.

Ezquerra, J.M., Garcia-Carreno, F.L., Carrillo, O., 1998. In vitro digestibility of dietary protein sources for

white shrimp (Penaeus vannamei). Aquaculture 163, 123-136.

Fenucci, J.L., Fenucci, A.C., Lawrence, A.L., Zein-Elden, Z.P., 1982. The assimilation of protein and

carbohydrate from prepared diets by the shrimp, Penaeus stylirostris. Journal of the World

Mariculture Society 13, 134-145.

Forster, J.R.M., Gabbot, P.A., 1971. The assimilation of nutrients from compounded diets by the prawns

Palaemon serratus and Pandalus platyceros. Journal of the Marine Biological Association of the

United Kingdom 51, 943-961.

Fox, J.M., Lawrence, A.L., Chan, E.L., 1995. Dietary requirement for lysine by juvenile Penaeus vannamei

using intact and free amino acid sources. Aquaculture 131, 279-290.

Garcia-Carreno, F.L., 1998. Prediction of protein digestibility in shrimp and use of second generation

protein ingredients in aquaculture feeds. In: IV International Symposium Nutrition in Aquaculture.

La Paz, BCS, Mexico, November 15-18. CIBNOR, La Paz, BCS, Mexico, Conference.

Gaxiola, G., Cuzon, G., Garcia, T., Taboada, G., Brito, R., Chimal, M.E., Paredes, A., Soto, L., Rosas, C.,

Wormhoudt, A., 2005. Factorial effects of salinity, dietary carbohydrate and moult cycle on

digestive carbohydrases and hexokinases in Litopenaeus vannamei (Boone, 1931). Comparative

Biochemistry and Physiology, Part A 140, 29-39.

Law, A.T., Chin, K.S.S., Ang, K.J., Kamarudin, M.S., 1990. Digestibility of low cost ingredients in pelleted

feeds by Macrobrachium rosenbergii (De Man). In: Hirano R., Hanyu, I., (Eds.), The Second

Asian Fisheries Forum. The Asian Fisheries Society, Manila, Philippines. Pp. 333-3336.

Lee, P.G., Lawrence, A.L., 1982. A quantitative analysis of digestive enzymes in penaeid shrimp,

influences of diet, age and species. Physiologist 25, 241.

Lee, P.G., Lawrence, A.L., 1997. Digestibility. In: D’Abramo, L/R/, Conklin, D.E., Akiyama, D.E. (Eds.),

Crustacean Nutrition. World Aquaculture Society, Baton Rouge, LA, USA, pp. 194-260.

Lemos, D., Ezquerra, J.M., Garcia-Carreno, F.L., 2000. Protein digestion in penaeid shrimp: digestive

proteinases, proteinase inhibitors and feed digestibility. Aquaculture 186, 89-105.

Lemos, D., 2003. In vitro determination of protein digestibility with enzymes from the target species.

International Aqua Feed 6, 40-42.

Lim, C., Dominy, W., 1990. Evaluation of soybean meal as a replacement for marine animal protein in diets

for shrimp Penaeus vannamei. Aquaculture 87, 53-64.

McGinnis, A.J., Kasting, R., 1964. Colorimetric analysis of chromic oxide used to study food utilization by

phytophagous insects. Agricultural and Food Chemistry 12, 259-262.

Merican, Z.O., Shim, K.F., 1995. Apparent digestibility of lipid and fatty acids in residual lipids of meals

by Penaeus monodon. Aquaculture 133, 275-286.

Mullen, J.D., Riley, J.P., 1955. The spectrophotometric determination of nitrite in natural waters, with

particular reference to sea-water. Anal. Chim. Acta., 12, 464-480.

Pond, W.G., Church, D.C., Pond, K.R., 1995. Basic animal nutrition and feeding, 4th edn. John Wiley and

Sons Inc., New York. 615 pp.

Reigh, R.C., Branden, S.L., Craig, R.J., 1990. Apparent digestibility coefficients for common feedstuffs in

formulated diets for red swamp crayfish, Procambarus clarkii.. Aquaculture 84, 321-334.

Sarac, Z., Thaggard, H., Saunders, J., Gravel, M., Neill, A., Cowan, R.T., 1993. Observations on the

chemical composition of some commercial prawn feeds and associated growth responses in

Penaeus monodon. Aquaculture 115, 97-110.

Shiau, S.Y., Lin, K.P., Chiou, C.L., 1992. Digestibility of different protein sources by Penaeus monodon

raised in brackish water and in sea water. Journal of Applied Aquaculture 1, 47-53.

Smith, L.L., Lee, P.G., Lawrence, A.L., Strawn, K., 1985. Growth and digestibility by three sizes of

Penaeus vannamei Boone: effects of dietary protein level and protein source. Aquaculture 46, 85-

Smith, D.M., Tabrett, S.J., 2004. Accurate measurement of in vivo digestibility of shrimp feeds.

Aquaculture 232, 563-580.

Solarzano, L., 1969. Determination of ammonia in natural waters by the phenolhypochlorite method.

Limnology and Oceanography 14, 799-801.

Spotte, S., 1979a. Fish and invertebrate culture: water management in closed systems, 2nd ed. Wiley, New

York, pp. 179.

Spotte, S., 1979b. Seawater aquariums: the captive environment. Wiley, New York, pp. 413.

Strickland, J.D.H., Parsons, T.R., 1972. A practical handbook of seawater analysis, 2nd ed. Bull. 167, Fish.

Res. Board Can., Ottawa, pp. 310.

Velasco, M., Lawrence, A.L., Neill, W.H., 1999. Effectos de la proteina y el fósforo dietario en la calidad

de agua de acuacultura. In: Cruz, L.E., Mendoza, R.E., Ricque, D. (Eds.), Memorias del Tercer

Simposium Internacional de Nutricion Acuicola. Universidad Autonoma de Nuevo Leon,

Monterrey, Nuevo Leon, Mexico, pp. 597-612.

Descargas

Cómo citar

Siccardi III, A., Lawrence, A., Gatlin III, D., Fox, J., Castille, F., Perez-Velazquez, M., & González-Félix, M. (2019). Digestibilidad Aparente de Energía, Proteína y Materia Seca de Ingredientes Utilizados en Alimentos Balanceados para el Camarón Blanco del Pacífico Litopenaeus vannamei. Avances En Nutrición Acuicola. Recuperado a partir de https://nutricionacuicola.uanl.mx/index.php/acu/article/view/170

Artículos similares

<< < 4 5 6 7 8 9 

También puede Iniciar una búsqueda de similitud avanzada para este artículo.