Apparent digestibility of Tithonia diversifolia, Gliricidia sepium and Cratylia argentea for Piaractus brachypomus, Cuvier 1818
DOI:
https://doi.org/10.22579/20112629.379Keywords:
Matarratón, False sunflower, Cratylia, cachama blanca, feeding, nutritionAbstract
High demand for conventional raw materials for food’s manufacture makes everyday costs rise, causing 70% of the production costs are for food, making it necessary to look for alternative sources for an efficient fish farming. The objective was to determine apparent digestibility coefficients (ADC) of Tithonia Diversifolia, Gliricidia Sepium and Cratylia Argentea in young cachama. 400 cachamass were selected with an average weight of 125 g, which were divided into 4 groups. To collect feces nine fiberglass tanks were used with 200 L capacity with conical bottom (modified Guelph system). The apparent digestibility coefficients (ADC) of the ingredients were determined by indirect method. The experimental diets were composed of 69.5% Dietary Reference (DR), 0.5% inert marker (Cr2O3) and 30% leaf meal of raw material to be evaluated. The CDA protein was to 54.22% Gliricidia, Tithonia Diversifolia: 35.7% and 23.9% Cratylia Argemtea. The leaf meal Gliricidia is an alternative raw material that can be used in cachama, for good percentage of crude protein 26.55%, plus the ability to use 54.2% (CDA), which equivalent to a protein digestibility of 14.39%, considering that this species has a requirement of 32% protein.Downloads
References
Amisah S, Oteng M, Ofori J. 2009. Growth performance of the African catfish, Clarias gariepinus, fed varying inclusion levels of Leucaena leucocephala leaf meal. Journal of Applied Sciences and Environmental Management 13.
AOAC, 1995. Official methods of analysis of AOAC International. AOAC Arlington eVirginia Virginia.
Bureau DP, Harris AM, Cho CY. Apparent digestibility of rendered animal protein ingredients for rainbow trout (Oncorynchus mykiss). Aquaculture. 1999; 180: 345-358.
CampecheI DFB, Al'ves de MoraesI Valdívia S, LimaI T, PaulinoI RV. Composição bromatológica e digestibilidade aparente de alimentos encontrados na região semiárida brasileira para arraçoamento de tilapia rosa em cultivos. Ciência Rural. 2011;41:343-348.
Cho CY, Cowey CB, Watanabe T. 1985. Finfish Nutrition in Asia: Methodological approaches to research and development, IDRC, Ottawa, Ont.(Canadá [ Links ]).
FAO. 2012. Estado Mundial de la Pesca y Acuicultura 231 pp.
Furukawa A, Tsukahara H. On the acid digestion for the determination of chromic oxide as an index substance in the study of digestibility of fish feed. . Bulletin of Japanese Society of Scientific Fisheries. 1966;32:502-506.
Gutiérrez-Espinosa M, Vásquez-Torres W. Digestibilidad de Glicine max L, Soya, en juveniles de cachama blanca Piaractus brachypomus Cuvier 1818. Orinoquia. 2008;12:141-148.
Contreras Castro HJ. Efecto sobre el rendimiento técnico de la tilapia nilotica chitralada resultante de la sustitucion de la dieta con falso girasol y morera en la etapa de ceba. Revista CITECSA. 2012; 3(4): 1-11IICA. 2012. Agenda Nacional De Investigación En pesca y Acuicultura, 154 pp.
Makkar HPS, Gill M, Owen E, Pollot GE, Lawrence TLJŽ. Antinutritional factors in foods for livestock. British Society of Animal Production. 1993;16: 69-85.
Nose T. 1966. Recent advances in the study of fish digestion in Japan. Symposium on feeding trout and salmon culture, II, 17.
Nutrition NRCC.o.A., 1993. Nutrient requirements of fish. Course Technology.
Pereira Junior G, Pereira Filho M, Roubach R, Barbosa PdS, Shimoda E. Leucaena leaf flour (Leucaena leucocephala Lam. of wit) as a protein source for juveniles of tambaqui (Colossoma macropomum Cuvier, 1818). Acta Amazonica. 2013; 43: 227-234.
Pezzato LE, Miranda Ed, Barros MM, Pinto LGQ, Furuya WM, Pezzato A. Digestibilidade aparente de ingredientes pela tilápia do Nilo (Oreochromis niloticus). Rev Bras Zootec. 2002; 31:15951604.
Rivas-Vega ME, López-Pereira JL, Miranda-Baeza A, Idalia M. 2012. Sustitución parcial de harina de sardina con Moringa oleifera en alimentos balanceados para juveniles de tilapia (Oreochromis mossambicus x Oreo-chromis niloticus) cultivada en agua de mar. Biotecnia. 2012;14(2):3-10.
Santos EL, do CMM Ludke M, Ramos AMdP, Barbosa JM, Ludke JV, Rabello CB. Digestibilidade de subprodutos da mandioca para a tilápia do Nilo-DOI: 10.5039/agraria. v4i3a20. Revista Brasileira de Ciências Agrárias (Agrária) Brazilian Journal of Agricultural Sciences. 2009;4:358-362.
Temesgen GGM. 2004. Utilization of Gliricidia Sepium Leaf Meal as Protein Source in Diets of Mozambique Tilapia, Oreochromis Mossambicus (Piscs: Cichlidae). Universiti Putra Malaysia.
Vásquez-Torres W, Pereira Filho M, Areas-Castellanos JA. Composição de una Dieta Referência Semipurificada para Avaliação de Exigências Nutricionais em Juvenis de Pirapitinga, Piaractus brachypomus (Cuvier, 1818). Rev Bras Zootec. 2002; 31: 283292.
Vásquez-Torres W, Yossa MI, Gutiérrez-Espinosa MC. Digestibilidad aparente de ingredientes de origen vegetal y animal en la cachama. Pesquisa Agropecuária Brasileira. 2013; 48: 920-927.
Walter Gutierrez F, Zaldívar J, Contreras G. Coeficientes de digestibilidad aparente de harina de pescado peruana y maíz amarillo duro para Colossoma macropomum (Actinopterygii, Characidae). Revista Peruana de Biología. 2008; 15: 111-116.
