AOAC (Association of Official Analytical Chemists). 2007.Official Methods of Analysis. 18th ed. Association of OfficialAnalytical Chemists, Gaithersburg, MD.Bach Knudsen K E. 1997. Carbohydrate and lignin contents ofplant materials used in animal feeding. Animal Feed Scienceand Technology, 67, 319-338Bach Knudsen K E, Hedemann M S, Laerke H N. 2012. Therole of carbohydrates in intestinal health of pigs. AnimalFeed Science and Technology, 173, 41-53Buraczewska L, ?wi?ch E, Tu?nio A, Taciak M, CeregrzynM, Korczyński W. 2007. The effect of pectin in amino aciddigestibility and digesta viscosity, motility and morphologyof the small intestine, and on N-balance and performanceof young pigs. Livestock Science, 109, 53-56Castillo M, Martin-Orue S M, Anguita M, Perez J F, Gasa J.2007. Adaptation of gut microbiota to corn physical structureand different types of dietary fibre. Livestock Science, 109,149-152Chen L, Gao L X, Zhang H F. 2014. Effect of graded levelsof fiber from alfalfa meal on nutrient digestibility and flowof fattening pigs. Journal of Integrative Agriculture, 13,1746-1752Chen L, Zhang H F, Gao L X, Zhao F, Lu Q P, Sa R N. 2013.Effect of graded levels of fiber from alfalfa meal on intestinalnutrient flow and hindgut fermentation of growing pigs.Journal of Animal Science, 91, 4757-4764Dégen L, Halas V, Babinszky L. 2007. Effect of dietary fibre onprotein and fat digestibility and its consequences on dietformulation for growing and fattening pigs: A review. ActaAgriculturae Scandinavica (Section A - Animal Science),57, 1-9Dilger R N, Sands J S, Ragland D, Adeola O. 2004. Digestibilityof nitrogen and amino acids in soybean meal with addedsoyhulls. Journal of Animal Science, 82, 715-724Le Goff G, van Milgen J, Noblet J. 2002. Influence of dietary fibreon digestive utilization and rate of passage in growing pigs,finishing pigs, and adult sows. Animal Science, 74, 503-515Grala W, Verstegen M W A, Jansman A J M, Huisman J,Wasilewko J. 1998. Nitrogen utilization in pigs fed diets withsoybean and rapeseed products leading to different ilealendogenous nitrogen losses. Journal of Animal Science,76, 569-577Guillon F, Saulnier L, Robert P, Thibault J F, Champ M. 2007.Chemical structure and function of cell wall through cerealgrains and vegetable samples. In: Salovaara H, GatesF, Tenkanen M, eds., Dietary Fibre Components andFunctions. Wageningen Academic Publishers, Wageningen,the Netherlands. pp. 31-64Hooda S, Metzler-Zebeli B U, Vasanthan T, Zijlstra R T. 2011.Effects of viscosity and fermentability of dietary fibre onnutrient digestibility and digesta characteristics in ilealcannulatedgrower pigs. British Journal of Nutrition, 106,664-674Hopwood D E, Pethick D W, Pluske J R, Hampson D J. 2004.Addition of pearl barley to a rice-based diet for newlyweaned piglets increases the viscosity of the intestinalcontents, reduces starch digestibility and exacerbates post-weaning colibacillosis. British Journal of Nutrition,92, 419-427Jenkins D J, Kendall C W, Axelsen M, Augustin L S, VuksanV. 2000. Viscous and nonviscous fibres, nonabsorbableand low glycaemic index carbohydrates, blood lipids andcoronary heart disease. Current Opinion in Lipidology, 11,49-56Johnson L J, Noll S, Renteria A, Shurson J. 2003. Feedingby-product high in concentration of fiber to non-ruminants.In: Third National Symposium on Alternative Feeds forLivestock and Poultry Held. Kansas City, MO, USA.Kass M L, Van Soest P J, Pond W G, Lewis B, McDowell RE. 1980. Utilization of dietary fiber from alfalfa by growingswine. I. Apparent digestibility of diet components in specificsegments of the gastrointestinal tract. Journal of AnimalScience, 50, 175-191de Lange C F M, Pluske J, Gong J, Nyachoti C M. 2010.Strategic use of feed ingredients and feed additives tostimulate gut health and development in young pigs.Livestock Science, 134, 124-134Lenis N P, Bikker P, van der Meulen J, van Diepen J T M,Bakker J G M, Jongbloed A W. 1996. Effect of dietaryneutral detergent fiber on ileal digestibility and portal fluxof nitrogen and amino acids and on nitrogen utilization ingrowing pigs. Journal of Animal Science, 74, 2687-2699Lindberg J E, Cortova Z. 1995. The effect of increasing inclusionof lucerne leaf meal in a barley-based diet on the partitionof digestion and on nutrient utilization in pigs. Animal FeedScience and Technology, 56, 11-20Lindberg J E. 2014. Fiber effects in nutrition and gut health inpigs. Journal of Animal Science and Biotechnology, 5, 15.Longland A C, Low A G, Quelch D B, Bray S P. 1993. Adaptationto the digestion of non-starch polysaccharide in growing pigsfed on cereal or semi-purified basal diets. British Journal ofNutrition, 70, 557-566Mosenthin R, Sauer W C, Ahrens F. 1994. Dietary pectin’seffect on ileal and fecal amino acid digestibility and exocrinepancreatic secretions in growing pigs. Journal of Nutrition,124, 1222-1229Noblet J, Le Goff G I. 2001. Effect of dietary fibre on theenergy value of feeds for pigs. Animal Feed Science andTechnology, 90, 35-52NRC (National Research Council, USA). 1998. NutrientRequirements of Swine. 10th ed. National Academic Press,Washington, D.C.NRC (National Research Council, USA). 2012. NutrientRequirements of Swine. 11th ed. National Academic Press,Washington, D.C.Panetta D M, Powers W J, Xin H, Kerr B J, Stadler K J. 2006.Nitrogen excretion and ammonia emissions from pigsfed modified diets. Journal of Environmental Quality, 35,1297-1308Prosky L, Asp N G, Schweizer T F, DeVires J W, Fruda I. 1988.Determination of insoluble, soluble, and total dietary fiberin foods and food products: Interlaboratory study. Journal-Association of Official Analytical Chemists, 71, 1012-1023Régnier C, Jaguelin Y, Noblet J, Renaudeau D. 2012. Ilealdigestibility of amino acids of cassava, sweet potato,cocoyam and erythrina foliages fed to growing pigs. Animal,6, 586-593SAS (Statistical Analysis System). 2009. SAS User’s Guide:Statistics. SAS Institute, Cary, NC.Schulze H, van Leeuwen P, Verstegen M W, Huisman J,Souffrant W B, Ahrens F. 1994. Effect of level of dietaryneutral detergent fiber on ileal apparent digestibility andileal nitrogen losses in pigs. Journal of Animal Science,72, 2362-2368Schürch A F, Lloyd L E, Champton E W. 1950. The use ofchromic oxide as an index for determining the digestibilityof a diet. Journal of Nutrition, 50, 629-636Souffrant W B. 2001. Effect of dietary fibre on ileal digestibilityand endogenous nitrogen losses in the pigs. Animal FeedScience and Technology, 90, 93-102Stein H H, Gibson M L, Pedersen C, Boersma M G. 2006. Aminoacid and energy digestibility in ten samples of distillers driedgrain with solubles fed to growing pigs. Journal of AnimalScience, 84, 853-860Stein H H, Seve B, Fuller M F, Moughan P J, De Lange CM G. 2007. Invited review: Amino acid bioavailabilityand digestibility in pig feed ingredients: Terminology andapplication. Journal Animal of Science, 85, 172-180Thacker P A, Haq I. 2008. Nutrient digestibility, performance andcarcass traits of growing-finishing pigs fed diets containinggraded levels of dehydrated lucerne meal. Journal of theScience of Food and Agriculture, 88, 2019-2025Urriola P E, Stein H H. 2010. Effects of distillers dried grains withsolubles on amino acid, energy, and fiber digestibility andon hindgut fermentation of dietary fiber in a corn-soybeanmeal diet fed to growing pigs. Journal of Animal Science,88, 1454-1462Wenk C. 2001. The role of dietary fibre in the digestivephysiology of the pig. Animal Feed Science and Technology,90, 21-33Wilfart A, Montagne L, Simmins P H, Noblet J, van Milgen J.2007. Effect of fibre content in the diet on the mean retentiontime in different segments of the digestive tract in growingpigs. Livestock Science, 109, 27-29Yen J T. 2004. Dehydrated alfalfa meal reduces urinary ureaexcretion in finishing gilts. Journal of Animal Science,82(suppl. 2), 68. |