[1]邓昌彦. 影响养猪成本的主要因素及其控制对策. 今日养猪业, 2005, 3: 47-49.Deng C Y. The main factors and control countermeasures influenced to the feed costs in pig industry. Pigs Today, 2005, 3: 47-49. (in Chinese)[2]陶 莉. 饲料成本对英国养猪生产行业的影响. 国外畜牧学 (猪与禽), 2011, 31(2): 3-11.Tao L. The impact of feed costs on the english pig industry. Abroad Animal Husbandry (Swine and Poultry), 2011, 31(2): 3-11. (in Chinese)[3]王文君, 张维军. 平衡猪氨基酸营养—减少氮排出的有效途径. 饲料工业, 1998, 19(8): 4-6.Wang W J, Zhang W J. Balance amin acid nutrient in pigs—the effective way to reduce the nitrogen excretion. Feed industry, 1998, 19(8): 4-6. (in Chinese)[4]张永成, 李德发. 减少养猪业对环境污染的营养措施. 饲料工业, 1999, 20(12): 1-4.Zhang Y C, Li D F. The nutrition methods of reducing environmental load from pig production. Feed Industry, 1999, 20(12): 1-4. (in Chinese)[5]冯定远. 降低养猪生产所造成环境污染的营养措施. 饲料广角, 2001, 20: 1-4.Feng D Y. Effects of nutrition supply on reduce environmental pollution from pig production. Wild Feed View, 2001, 20: 1-4. (in Chinese)[6]Aarnink A J A, Verstegen M W A. Nutrition, key factor to reduce environmental load from pig production. Livestock Science, 2007, 109(1-3): 194-203.[7]Jongbloed A W, Lenis N P. Alteration of nutrition as a means to reduce environmental pollution by pigs. Livestock Production Science, 1992, 31(1-2): 75-94.[8]O’Connell M K, Lynch P B, O’Doherty J V . A comparison between feeding a single diet or phase feeding a series of diets, with either the same or reduced crude protein content, to growing finishing pigs. Animal Science, 2005, 81(2): 297-303.[9]刘 景, 董志岩, 方桂友, 叶鼎承, 邱华玲, 李忠荣, 冯玉兰. 两 阶段肥育法对猪生长性能的影响. 中国畜禽种业, 2010, 5: 142-144.Liu J. Dong Z Y, Fang G Y, Ye D C, Qiu H L, Li Z R, Feng Y L. The effect of two different phase-feeding on pig growth performance. China Livestock Breed, 2010, 5: 142-144. (in Chinese)[10]Robert A E, Baker D H. Lysine and protein levels in corn-soybean meal diets for growing-finishing swine. Journal of Animal Science, 1980, 50(3): 467-471.[11]Main R G, Dritz S S, Tokach M D, Goodband R D, Nelssen J L. Determining an optimum lysine: calorie ratio for barrows and gilts in a commercial finishing facility. Journal of Animal Science, 2008, 86 (9): 2190-2207.[12]Brossard L, Dourmad J Y, van Milgen J, Quiniou N. Analysis of the variation of performance of a growing pigs population as affected by the lysine supply and number of diets in the feeding strategy. Journal of Porcine Research, 2007, 39: 95-102.[13]Hanigan M D, Novotny J A, Marstaller C L. Mathematical Modeling in Nutrition and Agriculture. Blacksburg, V A: Virginia Polytechnic and State University, 2007.[14]Campbell R G. Protein deposition capacity and the growing pig’s requirement for dietary nutrients. Swine Research Report, 1990, 11: 1-5.[15]Letourneau Montminy M P, Boucher C, Pomar C, Dubeau F, Dussault J P. The impact of using different formulation methods and feeding programs on feeding cost and phosphorous and nitrogen excretion in growing-finishing pigs. Journal of Porcine Research, 2005, 37: 25-32.[16]Pomar C, Pomar J, Babot D, Dubeau F. The impact of daily multiphase feeding on animal performance, body composition, and nitrogen and phosphorous excretion in growing-finishing pigs. Journal of Porcine Research, 2007, 39: 23-30.[17]Pomar C, Hauschild L, Zhang G H, Pomar J, Lovatto P A. Applying precision feeding techniques in growing-finishing pig operations. Brazilian Journal of Animal Science, 2009, 38(Supl.): 226-237.[18]Sauvant D, Perez J M, Tran G. Tables of Composition and Nutritional Value of Feed Materials. Wageningen: Wageningen Academic Publishers, 2004.[19]National Research Council. Nutrients Requirements of Swine (10th ed.), Washington, D C: Academic Press, 1998.[20]Jondreville C, Dourmad J Y. Phosphorus in pig nutrition. INRA Production Animal, 2005, 18(3): 183-192.[21]Hauschild L, Pomar C, Lovatto P A. Systematic comparison of the empirical and factorial methods used to estimate growing pigs’nutrient requirement. Animal, 2010, 4: 714-723.[22]Fuller M F, McWilliam R, Wang T C, Gilts L R. The optimum dietary amino acid pattern for growing pigs. 2. Requirements for maintenance and for tissue protein accretion. British Journal of Nutrition, 1989, 62(2): 255-267.[23]de Lange C F M, Morel P C H, Birkett S H. Modeling chemical and physical body composition of the growing pig. Journal of Animal Science, 2003, 81(14)(Suppl.2): E159-E165.[24]Mahan D C, Jr Shields R G. Essential and nonessential amino acid composition of pigs from birth to 145 kilograms of body weight, and comparison to other studies. Journal of Animal Science, 1998, 76(2): 513-521.[25]Mohn S, Gillis A M, Mouoghan P J, de Lang C F. Influence of dietary lysine and energy intakes on body protein deposition and lysine utilization in the growing pig. Journal of Animal Science, 2000, 78(6): 1510-1519.[26]Pomar C, Rivest J. The effect of body position and data analysis on the estimation of body composition of pigs by dual energy X-ray absorptiometry (DEXA). Proceedings of the 46th Annual Conference of the Canadian Society of Animal Science, Lethbridge, Alberta, 1996: 26.[27]Feddes J J R, Ouellette C A, Leonard J J. A system for providing protein for pigs in intermediatedly sized grower/finisher barns. Canadian Agricultural Engineering, 2000, 42: 209-213.[28]Bourdon D, Dourmad J Y, Henry Y. Reduction of nitrogen output in growing pigs by multiphase feeding with decreased dietary protein level. Journal of Porcine Research in France, 1995, 27: 269-278.[29]Honeyman M S. Sustainability issues of U.S. swine production. Journal of Animal Science, 1996, 74(6): 1410-1417.[30]Rotz C A. Management to reduce nitrogen losses in animal production. Journal of Animal Science, 2004, 82: E119-E137.[31]Pomar C, Kyriazakis I, Emmans G C, Knap P W. Modeling stochasticity: dealing with populations rather than individual pigs. Journal of Animal Science, 2003, 81(E.Suppl.2): E178-E186.[32]Leclercq B, Beaumont C. Simulating responses of flocks of broiler chickens, muscovy ducklings and laying hens to varying dietary concentrations of amino acids or crude protein. INRA Productions Animal, 2000, 13(1): 47-59. |