[1] Durge prasad, Prasad R D, Resssy D A, et al . Evaluation of complete tations containing groundnut haulms for lambs. Indian Journal of Animal Sciences, 1986, 56(2): 258-261. [2] Yang F. Investigate Nutritive Value of Peanut Vine in Vitro Gas Test and Preliminary Study on it as Dairy Cows’Roughage[D]. Urumchi: Xinjiang Agricutural University, 2010: 31-37. [3] Wu L, Ma W J, Yi R G. The feeding value and utilization of rape straw. Inner Mongolia Prataculture, 2007, 3(11): 41-42. [4] Wang F C, Zhao X H, Xu L J. The study on nutriention digestibility of mixture silage of Pennisetum hydridum and rape straw in Jingjiang yellow cattle. Feed Research, 2015, 13(1): 45-47. [5] Gao M. The combined effect of feed on rumen animal. Inner Mongolia Animal Science, 1997, (3): 20-22. [6] Bodine T N, Purvis H T, Ackerman C J, et al . Effects of supplementing prairie hay with corn and soybean meal on intake digestion, and ruminal measurements by beef steers. Animal Science, 2000, (78): 3144-3154. [7] Liu J X, Susenbeth A, Südekum K H. In vitro gas production measurements to evaluate interactions between untreated and chemically treated rice straws, grass hay, and mulberry leave. Animal Science, 2002, (80): 517-524. [8] Wondar K J, Hancok J D, Behnke K C, et al . Effects of particle size and pelleting on growth performance, nutrient digestibility, and stomach morphology in finishing pigs. Animal Science, 1995, (73): 757-763. [9] Zhao Y J, Wang P J, Wang J X, et al . Experiment on feeding Maigaiti sheep with complete formula granulated feed of stover. Grazing Animals, 2005, 9(3): 54-56. [10] Feng Z X, Gao M. Improvement of the method of determining the content of ammonia nitrogen in rumen fluid by colorimentric method. Inner Mongolia Animal Science, 1993, (4): 44-41. [11] Hu W L. The Effects of Sapindoside on Rumen Fermentation, Methane Production and Animal Production Performance[D]. Hangzhou: Zhejiang University, 2005: 52-53. [12] Moss A R, Jouany J P, Newbold. Methane production by ruminants: its contribution to global warming. Annales de Zootechnie, 2000, 49(3): 231-253. [13] Song Y G, Hao Z L, Li F D. The effects of different combinations of pellets diet on fattening lambs. Journal of Gansu Agriculture University, 2000, 35(4): 370-376. [14] Lin J, Yu J Q, Li J F. Performance of young sheep feeding mixed diets with different treatments. Chinese Journal of Animal Science, 2001, 37(6): 36-38. [15] Allen M S. Relationship between forage quality and dairy cattle production. Journal of Animal Feed Science and Technology, 1996, (59): 51-60. [16] Lai J T, Li N, Ma S C, et al . The effects of digestibility of fibrous material and protein for cows by mixed pellets. Chinese Journal of Animal Science, 2007, 13(1): 35-36. [17] Uden P. Digestibility and digesta retention in dairy cows receiving hay or silage at varying concentrate levels. Animal Feed Science Technology, 1984, (11): 279-291. [18] Duan Z Y. Studies on the Combination Effects and Mechanism of Starch and Fiber in the Diet[D]. Hangzhou: Zhejiang University, 2006: 53-57. [19] Wang Y. The Study on Pelletized Corn Straw Feed and Forage for Fatting Beefs[D]. Lanzhou: Gansu Agricultrural University, 2014: 40-47. [20] McDonald P R A. The influence of conservation methods on digestion and utilization of forages by ruminants. Production and Nutrition Science, 1976, (35): 201-211. [21] Johansen I T. Effects of reducing the starch content in oat-based diet with cellulose on jejunal flow and absorption of glueose over an isolated loop of jejunum in pig. British Journal of Nutrition, 1994, (9): 717-729. [22] Claudia B, Harald H, Goivanni L R, et al . Small intestinal morphllogy in eight-day-old calves colost rum for different durations or only milk replacer and treated with long-R3-insulin growth facter I and growth hormene. Journal of Animal Science, 1998, 76(3): 758-766. [23] Li D, Li F D, Zhang Y D, et al . Mixed silage of potato pulp and corn straw affects growth performance, ruminant environments and blood biochemical paramenters of mutton sheep. Acta Prataculturae Sinica, 2012, 21(5): 47-54. [24] Liu Y L, Huang J J, Fang W. Effects of L-aiginine on production performance, blood biochemical parameters and weight of visceral organs of weaned piglets. Journal of Nutrition, 2008, 20(2): 140-145. [25] Zhan J S, Zhan K, Liu M M, et al . Effects of alfalfa pellet feed on slaughter performance of goose, organs and blood biochemical index. Acta Prataculturae Sinica, 2015, 24(8): 181-187. [26] 杨凡. 花生藤体外产气法评定其饲用价值及作为奶牛粗饲料的初步研究[D]. 乌鲁木齐: 新疆农业大学, 2009. [27] 乌兰, 马伟杰, 义如格勒图. 油菜秸秆饲养价值分析及其开发利用. 内蒙古草业, 2007, 3(11): 41-42. [28] 王福春, 赵向辉, 许兰娇. 油菜秸秆与皇竹草混合微贮料对锦江黄牛体内营养物质消化率的研究. 饲料研究, 2015,13(1): 45-47. [29] 高民. 反刍动物饲料间的组合效应. 内蒙古畜牧科学, 1997, (3): 20-22. [30] 赵芸君, 王培基, 王建新,等. 农作物秸秆全价颗粒饲料饲喂麦盖提羊试验. 草食家畜, 2005, 9(3): 54-56. [31] 冯宗慈, 高民. 通过比色测定瘤胃液氨氮含量方法的改进. 内蒙古畜牧科学, 1993, (4): 40-41. [32] 胡伟莲. 皂甙对瘤胃发酵与甲烷产量及动物生产性能影响的研究[D]. 杭州: 浙江大学, 2005: 52-53. [33] 宋玉国, 郝正里, 李发弟. 不同组合的全饲粮颗粒饲料肥育羔羊效果. 甘肃农业大学学报, 2000, 35(4): 370-376. [34] 林嘉, 俞建群, 李建芬. 不同处理的混合日粮对幼龄湖羊的饲喂效果. 中国畜牧杂志, 2001, 37(6): 36-38. [35] 赖景涛, 李宁, 马松成, 等. 精粗比配合颗粒饲料对奶牛纤维型物质和蛋白表光消化率的影响. 中国畜牧杂志, 2007, 13(1): 35-36. [36] 段智勇. 反刍动物日粮中淀粉与纤维的组合效应及其机理的研究[D]. 杭州: 浙江大学, 2006: 53-57. [37] 王毅. 育肥牛用玉米秸秆型颗粒饲料的演讲[D]. 兰州: 甘肃农业大学, 2014: 40-47. [38] 李典, 李发弟, 张养东, 等. 马铃薯淀粉渣-玉米秸秆混合青贮料对肉羊生产性能, 瘤胃内环境和血液生化指标的影响. 草业学报, 2012, 21(5): 47-54. [39] 刘玉兰, 黄晶晶, 范伟. L-精氨酸对脂多糖刺激断奶仔猪生产性能、血液生化指标和内脏器官重量的影响. 动物营养学报, 2008, 20(2): 140-145. [40] 占今舜, 詹康, 刘明美, 等. 苜蓿草颗粒饲料对鹅屠宰性能、器官和血液生化指标的影响. 草业学报, 2015, 24(8): 181-187. |