Reference:[1]Gao J, Jia Y Sh, Wang X G, et al. Study on the multiple-factors associative effects of forage[J]. Acta Prataculturae Sinica, 2012, 21(4): 236-243. [2]Guo D S, Peng X L. Study on associated effects of feeds on ruminant[J].Acta Ecologae Animals Domastici, 2003, 29(2): 109-112. [3]Mould F L, Orskov E R, Mann S O. Associative effects of mixed feeds in effects of type and level of supplementation and the influence of the rumenfluid pH on cellulolysis in vitro and dry matter digestion of various roughages[J]. Animal Feed Science and Technology, 1983, 10: 15-30.[4]Duan Z Y. Study of associative effects between starch and neutral detergent fiber in ruminants[D]. Hangzhou: Zhejiang University, 2006.[5]Yan W J, Liu J X, Wu Y M. Evaluation methods and parameters of combination effects among feeds in ruminants[J]. China Feed, 2004, 15: 36-38. [6]Su H Y. Study on associative effects between mulberry leaves (morus alba) and oil-seed meals in ruminants[D]. Hangzhou: Zhejiang University, 2002. [7]Lei D Z, Jin S G, Wu R T N. Evaluation of the associative effects of same concentration and different forages by gas production method in vitro[J]. Feed Industry, 2009, 3: 30-33. [8]Tang S Y, Zhang Y G. Assessing combination domino offect between silage and rice straw in vitro[J]. Feed Industry, 2009, 30: 26-29. [9]Chen W J, Wang C, Duan Z Y, et al. The Measurements and Methods for Evaluation of Associative Effects in Ruminants[J]. China Cattle Science, 2011, 37(2): 61-65. [10]Wang X. A technique for formulation of mixed forages by grading index and systematic optimization of sheep ration based on the technique[D].Huhehaote : Inner Mongolia Agricultural University, 2003. [11]Guo Y Q, Cao Z J, Li S L, et al. Whole plant corn silage production and quality evaluation of the key technology, the high cost of corn era to zap one of technology and management strategy[J]. Chinese Journal of Animal Science, 2012, 48(18): 39-44. [12]Deng Y, Liu X N, Li X P, et al. Diurnal dynamics of photosynthetic characteristics of Leymus chinensis under different grazing intensities taking the Hulunber meadow steppe as an example[J]. Acta Prataculturae Sinica, 2012, 21(3): 308-313. [13]Ma X Y, Peng X J, Su M , et al. Phylogeny and function characterization of DREB transcription factors in Leymus chinensis[J]. Acta Prataculturae Sinica, 2012, 21(6): 190-197. [14]Sun Z X. Energy value evaluation and associative effects of forages for sheep[D].Beijing: The Chinese Academy of Agricultural Sciences, 2007[15]Guo D S. Influence of associated effects on utilizable crude protein of feeds for ruminants and rumen fermentation in vitro[D].Beijing: China Agricultural University, 2004. [16]Cotta M A, Russeiil J R. Effect of peptides and amino acids on efficiency of rumen bacterial protein synthesis in continuous culture[J]. Dairy Science, 1982, 65: 226-234.[17]Yu T F, Zhang J J, Sun G Q. Associative effects of Peanut Vine and four kinds of Roughages[J]. Chinese Journal of Animal Nutrition, , 2012, 24(7): 1246-1254. [18]Bu L T. In vitro gas test to evaluate associative effects between corn silage, Chinese wild hay and alfalfa[D]. Hangzhou: Zhejiang University, 2006. [19]Liu T Y, Guo X. To explore the application of peanut seedling in silage[J]. China Herbivore , 2003, 23(5): 27-28. 参考文献:[1]高静, 贾玉山, 王晓光, 等. 饲草组合效应综合指数研究[J]. 草业学报, 2012, 21(4): 236-243. [2]郭冬生, 彭小兰. 反刍动物日粮组合效应的研究进展[J]. 家畜生态学报, 2003, 29(2): 109-112. [3]Mould F L, Orskov E R, Mann S O. Associative effects of mixed feeds in effects of type and level of supplementation and the influence of the rumenfluid pH on cellulolysis in vitro and dry matter digestion of various roughages[J]. Animal Feed Science and Technology, 1983, 10: 15-30.[4]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.[5]闫伟杰, 刘建新, 吴跃明. 反刍动物饲料间组合效应评估参数及评估方法[J]. 中国饲料, 2004, 15: 36-38. [6]苏海涯. 反刍动物日粮中桑叶与饼粕类饲料间组合效应的研究[D]. 杭州: 浙江大学, 2002. [7]雷冬至, 金曙光, 乌仁塔娜. 用体外产气法评价不同粗饲料与相同精料间的组合效应[J]. 饲料工业, 2009, 3: 30-33. [8]唐赛勇, 张永根. 体外法评定玉米青贮与稻秸之间组合效应的研究[J]. 饲料工业, 2009, 30: 26-29. [9]陈伟健, 王翀, 段智勇, 等. 反刍动物饲料组合效应的衡量指标及评估方法综述[J]. 中国牛业科学, 2011, 37(2): 61-65. [10]王旭. 利用GI技术对粗饲料进行科学搭配及绵羊日粮配方系统优化技术的研究[D]. 呼和浩特: 内蒙古农业大学, 2003. [11]郭勇庆, 曹志军, 李胜利, 等. 全株玉米青贮生产与品质评定关键技术——高成本玉米时代牛场技术与管理策略之一[J]. 中国畜牧杂志, 2012, 48(18): 39-44. [12]邓钰, 柳小妮, 辛晓平, 等. 不同放牧强度下羊草的光合特性日动态变化——以呼伦贝尔草甸草原为例[J]. 草业学报, 2012, 21(3): 308-313. [13]马兴勇, 彭献军, 苏蔓, 等. 羊草DREB转录因子的系统发育和功能研究[J]. 草业学报, 2012, 21(6): 190-197. [14]孙献忠. 羊常用饲草的能量价值评定及其组合效应研究[D].北京: 中国农业科学院, 2007[15]郭冬生.反刍动物日粮组合效应对瘤胃发酵和可利用粗蛋白的影响研究[D].北京: 中国农业大学, 2004. [16]Cotta M A, Russeiil J R. Effect of peptides and amino acids on efficiency of rumen bacterial protein synthesis in continuous culture[J]. Dairy Science, 1982, 65: 226-234.[17]于腾飞, 张杰杰, 孙国强. 花生蔓与四种粗饲料间组合效应的研究[J]. 动物营养学报, 2012, 24(7): 1246-1254. [18]布同良. 体外产气法评定青贮玉米、羊草和苜蓿之间的组合效应[D]. 杭州: 浙江大学, 2006. [19]刘太宇, 郭孝. 花生秧在青贮饲料中的应用探讨[J]. 中国草食动物, 2003, 23(5): 27-28. |