Amorim, A. B., Thomaz, M. C., Ruiz, U. do S., Martinez, J. F., Pascoal, L. A. F., Daniel, E., … Rosalen, D. L. (2014). Citrus pulp and enzyme complex for growing and finishing pigs. Revista Brasileira de Saúde e Produção Animal, 15(2), 369-380. doi:10.1590/s1519-99402014000200009
Anguita, M., Canibe, N., Pérez, J. F., & Jensen, B. B. (2006). Influence of the amount of dietary fiber on the available energy from hindgut fermentation in growing pigs: Use of cannulated pigs and in vitro fermentation1. Journal of Animal Science, 84(10), 2766-2778. doi:10.2527/jas.2005-212
AOAC, 2000. Official methods of analysis. Association of Official Analytical Chemists, Gaithersburg (MD), USA.
[+]
Amorim, A. B., Thomaz, M. C., Ruiz, U. do S., Martinez, J. F., Pascoal, L. A. F., Daniel, E., … Rosalen, D. L. (2014). Citrus pulp and enzyme complex for growing and finishing pigs. Revista Brasileira de Saúde e Produção Animal, 15(2), 369-380. doi:10.1590/s1519-99402014000200009
Anguita, M., Canibe, N., Pérez, J. F., & Jensen, B. B. (2006). Influence of the amount of dietary fiber on the available energy from hindgut fermentation in growing pigs: Use of cannulated pigs and in vitro fermentation1. Journal of Animal Science, 84(10), 2766-2778. doi:10.2527/jas.2005-212
AOAC, 2000. Official methods of analysis. Association of Official Analytical Chemists, Gaithersburg (MD), USA.
Baird DM, Allison JR, Heaton EK, 1974. The energy value for and influence of citrus pulp in finishing diets for swine. J Anim Sci 38: 545-553.
Bampidis, V. A., & Robinson, P. H. (2006). Citrus by-products as ruminant feeds: A review. Animal Feed Science and Technology, 128(3-4), 175-217. doi:10.1016/j.anifeedsci.2005.12.002
Bindelle J, Leterme P, Buldgen A, 2008. Nutritional and environmental consequences of dietary fibre in pig nutrition: a review. Biotechnol Agron Soc Environ 12: 69-80.
Canibe N, Jensen BB, 2003. Fermented and nonfermented liquid feed to growing pigs: Effect on aspects of gastrointestinal ecology and growth performance. J Anim Sci 81: 2019-2031.
Cerisuelo, A., Castelló, L., Moset, V., Martínez, M., Hernández, P., Piquer, O., … Lainez, M. (2010). The inclusion of ensiled citrus pulp in diets for growing pigs: Effects on voluntary intake, growth performance, gut microbiology and meat quality. Livestock Science, 134(1-3), 180-182. doi:10.1016/j.livsci.2010.06.135
Cerisuelo, A., Moset, V., Bonet, J., Coma, J., & Lainez, M. (2012). Effects of inclusion of sorghum distillers dried grains with solubles (DDGS) in diets for growing and finishing pigs. Spanish Journal of Agricultural Research, 10(4), 1016. doi:10.5424/sjar/2012104-520-11
Cervera, C., Fernandez-Carmona, J., & Marti, J. (1985). Effect of urea on the ensiling process of orange pulp. Animal Feed Science and Technology, 12(3), 233-238. doi:10.1016/0377-8401(85)90017-3
Crosswhite JD, Myers NB, Adesogan AT, Brendemuhl JH, Johnson DD, Carr CC, 2013. The effect of dietary citrus pulp on the growth, feed efficiency, carcass merit, and lean quality of finishing pigs. The Professional Animal Scientist 29: 345-358.
De Mol J, 1992. Raw material compendium: a compilation of world-wide data sources. Novus Europe SA/NV, Brussels.
Ewing, WN, 2008. The living gut. Nottingham Univ. Press, UK.
FEDNA, 2010. Tablas FEDNA de composición y valor nutritivo de alimentos para la fabricación de piensos compuestos; De Blas C, Mateos GG, Rebollar PG, eds. Fundación Espa-ola para el Desarrollo de la Nutrición Animal, Madrid.
Fung, Y. T. E., Sparkes, J., Van Ekris, I., Chaves, A. V., & Bush, R. D. (2010). Effects of feeding fresh citrus pulp to Merino wethers on wool growth and animal performance. Animal Production Science, 50(1), 52. doi:10.1071/ea08304
Galassi, G., Crovetto, G. ., Rapetti, L., & Tamburini, A. (2004). Energy and nitrogen balance in heavy pigs fed different fibre sources. Livestock Production Science, 85(2-3), 253-262. doi:10.1016/s0301-6226(03)00124-6
Gasa, J., Castrillo, C., Guada, J. A., & Balcells, J. (1992). Rumen digestion of ensiled apple pomace in sheep: effect of proportion in diet and source of nitrogen supplementation. Animal Feed Science and Technology, 39(3-4), 193-207. doi:10.1016/0377-8401(92)90041-4
Hall, M. B., Lewis, B. A., Van Soest, P. J., & Chase, L. E. (1997). A Simple Method for Estimation of Neutral Detergent-Soluble Fibre. Journal of the Science of Food and Agriculture, 74(4), 441-449. doi:10.1002/(sici)1097-0010(199708)74:4<441::aid-jsfa813>3.0.co;2-c
Ivarsson, E., Liu, H. Y., Dicksved, J., Roos, S., & Lindberg, J. E. (2012). Impact of chicory inclusion in a cereal-based diet on digestibility, organ size and faecal microbiota in growing pigs. animal, 6(7), 1077-1085. doi:10.1017/s1751731111002709
Jensen BB, Jørgensen H, 1994. Effect of dietary fiber on microbial activity and microbial gas production in various regions of the gastrointestinal tract of pigs. Appl Environ Microbiol 60: 1897–1904.
Jørgensen, H., Zhao, X.-Q., & Eggum, B. O. (1996). The influence of dietary fibre and environmental temoperature on the development of the gastrointestinal tract, digestibility, degree of fermentation in the hind-gut and energy metabolism in pigs. British Journal of Nutrition, 75(3), 365-378. doi:10.1079/bjn19960140
Jouany JP, 1982. Volatile fatty acid and alcohol determination in digestive contents, silage juices, bacterial cultures and anaerobic fermentor contents. Sci Aliment 2: 131-144.
Kayouli C, Lee S, 1998. Supplementary feeding for dairy smallholders in Pacific Island Countries: Fiji, Samoa, Vanuatu, Cook Islands, Solomon Islands and Tonga. In: Manual of smallholder milk production in the South Pacific; Lee S, Kennard R, Kayouli C, eds. FAO Sub-Regional Office for the Pacific, Apia (Samoa). pp: 67-101.
Kyriazakis, I., & Emmans, G. C. (1995). The voluntary feed intake of pigs given feeds based on wheat bran, dried citrus pulp and grass meal, in relation to measurements of feed bulk. British Journal of Nutrition, 73(2), 191-207. doi:10.1079/bjn19950023
Leterme, P., Londoño, A. M., Estrada, F., Souffrant, W. B., & Buldgen, A. (2005). Chemical composition, nutritive value and voluntary intake of tropical tree foliage and cocoyam in pigs. Journal of the Science of Food and Agriculture, 85(10), 1725-1732. doi:10.1002/jsfa.2177
Macfarlane, G. T., Gibson, G. R., Beatty, E., & Cummings, J. H. (1992). Estimation of short-chain fatty acid production from protein by human intestinal bacteria based on branched-chain fatty acid measurements. FEMS Microbiology Letters, 101(2), 81-88. doi:10.1111/j.1574-6968.1992.tb05764.x
Márquez, M. C., & Ramos, P. (2007). Effect of the inclusion of food waste in pig diets on growth performance, carcass and meat quality. animal, 1(4), 595-599. doi:10.1017/s1751731107685000
Pascual, J. M., & Carmona, J. F. (1980). Composition of citrus pulp. Animal Feed Science and Technology, 5(1), 1-10. doi:10.1016/0377-8401(80)90005-x
Martínez-Vallespín B, Navarrete C, Martínez-Paredes E, Ródenas L, Cervera C, Blas E, 2011. Determinación de la fibra soluble en detergente neutro: modificaciones del método original. Proc XIV Jornadas sobre Producción Animal; Sanz A et al., eds. May, Monta-ana, Zaragoza. pp: 17-18.
Montagne, L., Pluske, J. ., & Hampson, D. . (2003). A review of interactions between dietary fibre and the intestinal mucosa, and their consequences on digestive health in young non-ruminant animals. Animal Feed Science and Technology, 108(1-4), 95-117. doi:10.1016/s0377-8401(03)00163-9
NRC, 2012. Nutrient requirements of swine. National Research Council, Nat Acad Press, Washington DC, USA.
Noblet, J., & Le Goff, G. (2001). Effect of dietary fibre on the energy value of feeds for pigs. Animal Feed Science and Technology, 90(1-2), 35-52. doi:10.1016/s0377-8401(01)00195-x
O’Fallon, J. V., Busboom, J. R., Nelson, M. L., & Gaskins, C. T. (2007). A direct method for fatty acid methyl ester synthesis: Application to wet meat tissues, oils, and feedstuffs. Journal of Animal Science, 85(6), 1511-1521. doi:10.2527/jas.2006-491
Oluremi, O. I. A., Okafor, F. N., Adenkola, A. Y., & Orayaga, K. T. (2010). Effect of Fermentation of Sweet Orange (Citrus sinensis) Fruit Peel on its Phytonutrients and the Performance of Broiler Starter. International Journal of Poultry Science, 9(6), 546-549. doi:10.3923/ijps.2010.546.549
O'Sullivan TC, Lynch PB, Morrisey PA, O'Grady JF, 2003. Evaluation of citrus pulp in diets for sows and growing pigs. Ir J Agr Food Res 42: 243-253.
Rijnen MMJA, Verstegen MWA, Heetkamp MJW, Haaksma J, Schrama JW, 2001. Effect of dietary fermentable carbohydrates on energy metabolism in group-housed sows. J Anim Sci 79: 148-154.
Ruiz, U. S., Tomaz, M. C., Pascoal, L. A. F., Watanabe, P. H., Amorim, A. B., Melo, G. M. P., & Daniel, E. (2012). Nutrient digestibility of degermed, dehulled corn, citrus pulp, and soy protein concentrate by barrows. Journal of Animal Science, 90(suppl_4), 170-172. doi:10.2527/jas.53863
Stein, H. H., & Shurson, G. C. (2009). BOARD-INVITED REVIEW: The use and application of distillers dried grains with solubles in swine diets. Journal of Animal Science, 87(4), 1292-1303. doi:10.2527/jas.2008-1290
Van Kleef, D. J., Deuring, K., & van Leeuwen, P. (1994). Anew method of faeces collection in the pig. Laboratory Animals, 28(1), 78-79. doi:10.1258/002367794781065942
Van Soest, P. J., Robertson, J. B., & Lewis, B. A. (1991). Methods for Dietary Fiber, Neutral Detergent Fiber, and Nonstarch Polysaccharides in Relation to Animal Nutrition. Journal of Dairy Science, 74(10), 3583-3597. doi:10.3168/jds.s0022-0302(91)78551-2
Van Winsen, R. L., Urlings, B. A. P., Lipman, L. J. A., Snijders, J. M. A., Keuzenkamp, D., Verheijden, J. H. M., & van Knapen, F. (2001). Effect of Fermented Feed on the Microbial Population of the Gastrointestinal Tracts of Pigs. Applied and Environmental Microbiology, 67(7), 3071-3076. doi:10.1128/aem.67.7.3071-3076.2001
Villamide, M. J., Garcı́a, J., Cervera, C., Blas, E., Maertens, L., & Perez, J. M. (2003). Comparison among methods of nutritional evaluation of dietary ingredients for rabbits. Animal Feed Science and Technology, 109(1-4), 195-207. doi:10.1016/s0377-8401(03)00177-9
Watanabe, P. H., Thomaz, M. C., Ruiz, U. dos S., Santos, V. M. dos, Fraga, A. L., Pascoal, L. A. F., … Faria, H. G. de. (2010). Effect of inclusion of citrus pulp in the diet of finishing swines. Brazilian Archives of Biology and Technology, 53(3), 709-718. doi:10.1590/s1516-89132010000300028
Watanabe, P. H., Thomaz, M. C., Ruiz, U. S., Santos, V. M., Masson, G. C. I., Fraga, A. L., … Silva, S. Z. (2010). Carcass characteristics and meat quality of heavy swine fed different citrus pulp levels. Arquivo Brasileiro de Medicina Veterinária e Zootecnia, 62(4), 921-929. doi:10.1590/s0102-09352010000400023
Williams, B. A., Verstegen, M. W. A., & Tamminga, S. (2001). Fermentation in the large intestine of single-stomached animals and its relationship to animal health. Nutrition Research Reviews, 14(02), 207. doi:10.1079/nrr200127
Wood, J. D., & Enser, M. (1997). Factors influencing fatty acids in meat and the role of antioxidants in improving meat quality. British Journal of Nutrition, 78(1), S49-S60. doi:10.1079/bjn19970134
Xandé, X., Régnier, C., Archimède, H., Bocage, B., Noblet, J., & Renaudeau, D. (2010). Nutritional values of sugarcane products in local Caribbean growing pigs. animal, 4(5), 745-754. doi:10.1017/s175173110999173x
Zacharias, B., Kerler, A., & Drochner, W. (2004). The influence of 5% and 10% dietary apple pectin on parameters of fermentation in faeces and caecal digesta of weaning pigs. Archives of Animal Nutrition, 58(2), 149-156. doi:10.1080/00039420410001667502
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