Effect of Vegetable By-Products Supplements on Coefficients of Apparent absorption from laying Hen Diets
Keywords:
amino acids, by-products, feeds, laying hens, nutrient digestibilityAbstract
The in vivo feeding trial was conducted on 6 weeks with 126 Tetra SL laying hens, 56-week old, assigned to 3 groups. The layers were housed in an experimental hall with controlled microclimate, in three-tier digestibility cages (2 layers per cage) which allowed the daily recording of the feed intake and excreta. All hens received a conventional compound feed (C), based on corn and soybean meal, which contained 2750 kcal/kg metabolizable energy and 17.50% crude protein. Each experimental group had as supplement one fat and one antioxidant vegetal source, rapeseed meal and grapeseed meal (RGM) respectively flaxseed meal and buckthorn meal (FBM). The balance study was conducted for 5 days, on the last experimental week. During this period, average weights from each cage (6 samples per group) of feed and excreta were recorded, collected and sampled for: dry matter (DM), crude protein (CP), ether extractives (EE), crude fibre (CF) ash and amino acids determinations from feeds. The layers from FBM group had significantly (P<0.05) higher concentration of ingested, excreted and digested amount of CP and the lowest (P≤0.05) EE and CF absorption coefficient. Significantly higher (P<0.05) values for ingested, excreted, digested and absorption coefficient of CF nutrient, was registered for RGM group.
References
Chadd, C., Future trends and developments in poultry nutrition. Poultry in the 21st Century: Avian Influenza and Beyond, International Poultry Conference, 5–7 November, Bangkok, Thailand, 2007.
De Marco, M., Martínez, S., Hernandez, F., Madrid, J., Gai, F., Rotolo, L., Kovitvadhi, A., Nutritional value of two insect larval meals (Tenebrio molitor and Hermetia illucens) for broiler chickens: apparent nutrient digestibility, apparent ileal amino acid digestibility and apparent metabolizable energy. Animal Feed Science and Technology, 2015, 209, 211-218.
Vlaicu, P. A., Panaite, T. D., Criste, R. D., Olteanu, M., Ropota, M., Criste, V., Vasile, G., Grosu, I., Production parameters, carcass development and blood parameters of the broiler chick fed diets which include rapeseed, flax, grape and buckthorn meals, Scientific Papers Animal Science and Biotechnologies, 2017, 50(1), 37-45.
Chen, X., Feng, Y., Chen, Z, Common edible insects and their utilization in China, Entomol. Res., 2009, 39, 299–303.
Panaite, T. D., Criste, R. D., Ropota, M., Criste, V., Vasile, G., Olteanu, M., Vlaicu, A., Determination of the feeding value of food industry by-products, Scientific Papers-Animal Science Series, 2016, 66(21): 106-111.
Vlaicu, P. A., Panaite, T. D., Voicu, I., Turcu, R. P., Olteanu, M., & Ropota, M. Determining the feeding value of some food industry by-products, Scientific Papers: Animal Science and Biotechnologies, 2018, 51(1), 62-69.
Turcu, R. P., Olteanu, M., Criste, R. D., Panaite, T. D., Ropotă, M., Vlaicu, P. A., Drăgotoiu, D., Grapeseed Meal Used as Natural Antioxidant in High Fatty Acid Diets for Hubbard Broilers, Brazilian Journal of Poultry Science, 2019, 21(2).
Cruz-Suárez, L. E., Nieto-López, M., Guajardo- Barbosa, C., Tapia-Salazar, M., Scholz, U., Ricque- Marie, D., Replacement of fish meal with poultry by- product meal in practical diets for Litopenaeus vannamei, and digestibility of the tested ingredients and diets, Aquaculture, 2007, 272(1-4), 466-476.
Vlaicu, P. A., Panaite, T. D., Criste, R. D., Olteanu, M., Ropota, M., Criste, V., Vasile, G., Grosu, I. Production parameters, carcass development and blood parameters of the broiler chick fed diets which include rapeseed, flax, grape and buckthorn meals, Scientific Papers Animal Science and Biotechnologies, 2017, 50(1), 37-45.
Turcu, R. P., Olteanu, M., Criste, R. D., Panaite, D. T., Ropota, M., Vlaicu, P. A., Soica, C., Use of flaxseed meal and grape seed meal (2% and 3%) as natural antioxidant in broiler diets, Scientific Papers- Animal Science Series, 2018, 69, 200-206.
Huang, K. H., Ravindran, V., Li, X., Ravindran, G., Bryden, W. L. Apparent ileal digestibility of amino acids in feed ingredients determined with broilers and layers, Journal of the Science of Food and Agriculture, 2007, 87(1): 47-53.
Lemme, A., Ravindran, V., Bryden, W. L., Ileal digestibility of amino acids in feed ingredients for broilers, World's Poultry Science Journal, 2004, 60(4), 423-438.
Varzaru I, Untea, A. E, Martura, T., Olteanu, M., Panaite, T. D, Schitea, M., Van, I., Development and validation of an RP-HPLC method for methionine, cystine and lysine separation and determination in corn samples, Revista de Chimie Bucharest, 2013, 64, 673-679.
Ayssiwede, S. B., Dieng, A., Chrysostome, C., Ossebi, W., Hornick, J. L., Missohou, A., Digestibility and metabolic utilization and nutritional value of Leucaena leucocephala (Lam.) leaves meal incorporated in the diets of indigenous seneghal chickens, International Journal of Poultry Science, 2010. 9, 767-776.
Management guide (Tetra SL) brown pullet.
Aziza, A. E., Panda, A. K., Quezada, N., Cherian, G. Nutrient digestibility, egg quality, and fatty acid composition of brown laying hens fed camelina or flaxseed meal,, Journal of Applied Poultry Research, 2013, 22(4), 832-841.
Oomah, B. D., Flaxseed as a functional food source, Journal of the Science of Food and Agriculture, 2001, 81(9), 889-894.
Fernandes, L., Casal, S., Cruz, R., Pereira, J. A., Ramalhosa, E., Seed oils of ten traditional Portuguese grape varieties with interesting chemical and antioxidant properties, Food Research International, 2013, 50(1), 161-166.
Olas, B., Sea buckthorn as a source of important bioactive compounds in cardiovascular diseases, Food and Chemical Toxicology, 2016. 97, 199-204.
Lichovnikova, M., Kalhotka, L., Adam, V., Klejdus, B., Anderle, V., The effects of red grape pomace inclusion in grower diet on amino acid digestibility, intestinal microflora, and sera and liver antioxidant activity in broilers, Turkish Journal of Veterinary and Animal Sciences, 2015, 39(4), 406-412.
Ortiz, L. T., Rebole, A., Rodriguez, M. L., Trevino, J., Alzueta, C., Isabel, B., Effect of chicken age on the nutritive value of diets with graded additions of full-fat sunflower seed, British poultry science, 1998, 39(4), 530-535.
Vlaicu, P. A., Panaite, T. D., Cornescu, M. G., Ropota, M., Olteanu, M., Drăgotoiu, D., The influence of by-products on the production parameters and nutrient digestibility in fattening pigs diet (60-100 kg), AgroLife Scientific Journal, 2019, 8(1), 261-269.
Ortiz, L. T., Rebolé, A., Alzueta C., Rodríguez, M. L., Treviño, J., Metabolisable energy value and digestibility of fat and fatty acids in linseed determined with growing broiler chickens, Journal British Poultry Science, 2001, 42, 57-63.
Abdulla, N. R., Loh, T.C., Akit, H., Sazili, A. Q., Foo, H. L., Effects of dietary oil sources and calcium: phosphorus levels on growth performance, gut morphology and apparent digestibility of broiler chickens, South African Journal of Animal Science, 2016, 46 (1), 42-53.
Panaite, T., Criste, R., Olteanu, M., Vlaicu, A., Soica, C., Coefficients of apparent absorption of the dietary nutrients from broiler feeds that include oil industry by-products (rapeseeds, grapes, buckthorn, flax and pumpkin meals), Scientific Papers: Animal Science & Biotechnologies, 2017, 50(1), 22-28.
Batal, A. B., Parsons, C. M., Effects of age on nutrient digestibility in chicks fed different diets, Poultry Science, 2002, 81(3), 400-407.
Huang, K. H., Ravindran, V., Li, X., Bryden, W.
L., Influence of age on the apparent ileal amino acid digestibility of feed ingredients for broiler chickens, British Poultry Science, 2005, 46(2), 236-245.
