[1] Wenk C.The role of dietary fibre in the digestive physiology of the pig. Animal Feed Science and Technology, 2001, 90(1): 21-33. [2] Noblet J, Le Goff G.Effect of dietary fibre on the energy value of feeds for pigs. Animal Feed Science and Technology, 2001, 90(1): 35-52. [3] Lindberg J E.Fiber effects in nutrition and gut health in pigs. Journal of Animal Science and Biotechnology, 2014, 5(1): 15. [4] Schroeder B O, Bäckhed F.Signals from the gut microbiota to distant organs in physiology and disease. Nature Medicine, 2016, 22(10): 1079-1089. [5] Lallès J P, Bosi P, Smidt H, et al. Weaning—a challenge to gut physiologists. Livestock Science, 2007, 108(1): 82-93. [6] Mateos G G, Martin F, Latorre M A, et al. Inclusion of oat hulls in diets for young pigs based on cooked maize or cooked rice. Animal Science, 2006, 82(1): 57-63. [7] Molist F, Van Oostrum M, Pérez J F, et al. Relevance of functional properties of dietary fibre in diets for weanling pigs. Animal Feed Science and Technology, 2014, 189: 1-10. [8] Berrocoso J D, Serrano M P, Cámara L, et al. Influence of diet complexity on productive performance and nutrient digestibility of weanling pigs. Animal Feed Science and Technology, 2012, 171(2): 214-222. [9] Berrocoso J D, Saldaña B, Serrano M P, et al. Influence of crude protein content, ingredient complexity, feed form, and duration of feeding of the phase I diets on productive performance and nutrient digestibility of Iberian pigs. Journal of Animal Science, 2013, 91(3): 1237-1246. [10] Gao L, Chen L, Huang Q, et al. Effect of dietary fiber type on intestinal nutrient digestibility and hindgut fermentation of diets fed to finishing pigs. Livestock Science, 2015, 174: 53-58. [11] Gerritsen R, Van der Aar P, Molist F. Insoluble nonstarch polysaccharides in diets for weaned piglets. Journal of Animal Science, 2012, 90(Supplement 4): 318-320. [12] Chen L, Zhang H F, Gao L X, et al. Effect of graded levels of fiber from alfalfa meal on intestinal nutrient and energy flow, and hindgut fermentation in growing pigs. Journal of Animal Science, 2013, 91(10): 4757-4764. [13] National Research Council (NRC). Nutrient requirements of swine. Washington, DC: National Academy Press, 2012. [14] Brambillasca S, Zunino P, Cajarville C.Addition of inulin, alfalfa and citrus pulp in diets for piglets: influence on nutritional and faecal parameters, intestinal organs, and colonic fermentation and bacterial populations. Livestock Science, 2015, 178: 243-250. [15] Maslowski K M, Mackay C R.Diet, gut microbiota and immune responses. Nature Immunology, 2011, 12(1): 5-9. [16] Molist F, Manzanilla E G, Pérez J F, et al. Coarse, but not finely ground, dietary fibre increases intestinal firmicutes: bacteroidetes ratio and reduces diarrhoea induced by experimental infection in piglets. British Journal of Nutrition, 2012, 108(1): 9-15. [17] Jha R, Berrocoso J D.Dietary fiber utilization and its effects on physiological functions and gut health of swine. Animal, 2015, 9(9): 1441-1452. [18] Serena A, Hedemann M S, Bach Knudsen K E. Influence of dietary fiber on luminal environment and morphology in the small and large intestine of sows. Journal of Animal Science, 2008, 86(9): 2217-2227. [19] Yang Y F, Lu D X, Xu Z R.Effect of dietary fiber on growth performance and digestive physiology function of piglets. Chinese Journal of Animal Nutrition, 2009, (6): 816-821. 杨玉芬, 卢德勋, 许梓荣. 日粮纤维对仔猪生长性能和消化生理功能的影响. 动物营养学报, 2009, (6): 816-821. [20] Wu W D, Xie J J, Zhu L Y, et al. Research progress of dietary fiber affects gut health of pigs. Chinese Journal of Animal Nutrition, 2017, 29(3): 739-748. 吴维达, 解竞静, 朱丽媛, 等. 饲粮纤维影响猪肠道健康的研究进展. 动物营养学报, 2017, 29(3): 739-748. [21] Chwen L T, Foo H L, Thanh N T, et al. Growth performance, plasma fatty acids, villous height and crypt depth of preweaning piglets fed with medium chain triacylglycero. Asian-Australasian Journal of Animal Sciences, 2013, 26(5): 700. [22] Chen H, Mao X, Yin J, et al. Comparison of jejunal digestive enzyme activities, expression of nutrient transporter genes, and apparent fecal digestibility in weaned piglets fed diets with varied sources of fiber. Journal of Animal and Feed Sciences, 2015, 24(1): 41-47. [23] Li K Z, Li N, Li J S, et al. Effect of short chain fatty acids on the morphology and function of transplanted small intestine in rats. World Chinese Journal of Digestology, 2002, 10(6): 720-722. 李可洲, 李宁, 黎介寿, 等. 短链脂肪酸对大鼠移植小肠形态及功能的作用研究. 世界华人消化杂志, 2002, 10(6): 720-722. [24] Liu Y.Explore the fermented soybean meal and Lactobacillus acidophilus cultures on the intestinal morphology structure and digestive enzyme activity and blood biochemical index of leaned piglets. Nanchang: Jiangxi Agricultural University, 2015. 刘阳. 发酵豆粕和嗜酸乳杆菌培养物对断奶仔猪肠道形态结构, 消化酶活性及血液生化指标的影响. 南昌: 江西农业大学, 2015. [25] Meng L H, Pang M, Zhu L Y, et al. Effects of dietary fiber sources on the digestibility of nutrients for growing pigs. Chinese Journal of Animal Nutrition, 2015, 27(4): 1068-1075. 孟丽辉, 庞敏, 朱丽媛, 等. 日粮纤维来源对生长猪养分消化率的影响. 动物营养学报, 2015, 27(4): 1068-1075. [26] Aschenbach J R, Schwelberger H G, Ahrens F, et al. Histamine inactivation in the colon of pigs in relationship to abundance of catabolic enzymes. Scandinavian Journal of Gastroenterology, 2006, 41(6): 712-719. [27] Kröger S, Pieper R, Aschenbach J R, et al. Effects of high levels of dietary zinc oxide on ex vivo epithelial histamine response and investigations on histamine receptor action in the proximal colon of weaned piglets. Journal of Animal Science, 2015, 93(11): 5265-5272. |