[1] Shi Z C. Important Poisonous Plants in Chinese Grassland[M]. Beijing: Chinese Agriculture Press, 1997: 124-139. [2] Okatan A, Reis M. A study on herbaceous plants in the trabzon-karadere Creek watershed. Proceedings of theⅥth International Rangeland Congress[M]. Turkey, 1999: 607-608. [3] Wang Q H, Li C, Pang Z, et al . Poisonous weed in Chinese grassland and control technology. Acta Agrestia Sinica, 2013, 21(5): 831-841. [4] Shen J L, Zhou X D, Meng Y, et al . A study on chemical control of Stellera chamaejasme in rangeland. Pratacultural Science, 1999, 16(6): 53-56. [5] Sun X W. Study on chemical control of Stellera chamaejasme in alpine grassland. Pratacultural Science, 2005, 22(4): 88-90. [6] Xing F, Liu W G, Wang C W. Advances of researches on poisonous plants in Chinese grassland. Grassland of China, 2001, 23(5): 57-62. [7] Tan C H. Distribution, harms and control measures of the main poisonous plants in the natural grassland of Gansu province. Pratacultural Science, 2006, 23(12): 98-101. [8] Fan P H, Guo B, Wu D C, et al . The hazards,prevention and exploitation of poisonous oxytropis in grassland of China. Chinese Journal of Grassland, 2012, 34(6): 101-106. [9] Wang S, Jia Q Z, Chen G Y, et al . Effect of Oxytropis glabra DC addition on the utilization of silage in karakul rams. Feed Industry, 2011, 12(19): 55-58. [10] Wang S, Hu J J, Alimubieke, et al . Analysis of nutrition of Oxytropis glabra in Southern Xinjiang. Pratacultural Science, 2010, 27(5): 136-139. [11] Yao Y X, Li Y. Analysis on nutrient constituent of alfalfa ( Medicago sativa L.) from different areas of Ningxia. Journal of Anhui Agricultural Science, 2011, 39(36): 22344-22345, 22410. [12] Wang X, Ma Y X, Li J. Nutrient components and the main biological characteristics of alfalfa. Pratacultural Science, 2003, 20(10): 39-41. [13] Sun S X, Tao R, Yang S L, et al . Correlation between van soest fiber of alfalfa and digestibility in vitro . Southwest China Journal of Agricultural Sciences, 2012, 25(6): 2356-2359. [14] FAO/WHO. Energy and Protein Requirement[R]. Gneva: WHO, 1973. [15] Guo R F, Chen K L, Zhang X, et al . Ruminant animal limiting amino acid nutrition and amino acid pattern. Chinese Feed, 2001, (1): 19-20. [16] Yang J B, Wen S M, Zhao R. Progress of ruminant animal protein and amino acid nutrition research. Guangdong Feed, 2010, 19(6): 33-37. [17] Liu Q, Teng W, Zhang B C. Analysis of amino acids and microelements of Trionyx sinensis . Amino Acids & Biotic Resources, 1995, 17(1): 18-21. [18] Qin Y, Li X Z, Jiang W Q, et al . An investigation of nutrition components and types in Tibet main crop straws and pastures. Acta Prataculturae Sinica, 2010, 19(5): 122-129. [19] Zhang J K, Li L R. The role of crude feed in ruminant animal nutrition and factors affecting forage nutritive value. China Dairy, 2003, (12): 25-29. [20] Li G Y, Liu D W, Gao T Y, et al . Nutritional characteristics of alfalfa and its action mechanism on ruminants. Acta Agriculturae Jiangxi, 2011, 23(1): 172-175, 180. [21] Wu Q J, Xu T S. Research progress on dietary neutral detergent fiber. Feed Industry, 2006, 27(7): 14-16. [22] Chen Y, Wang Z S, Zhang X M, et al . Analysis of the nutritional components and feeding values of commonly used roughages. Acta Prataculturae Sinica, 2015, 24(5): 117-125. [23] Zhang L P, Wu J P, Wang X J, et al . Study on the amino acid content and nutrient analysis of alfalfa bud and its product. Food Science and Technology, 2006, (12): 141-144. [24] Zhang Z Y. Analysis of Effective Chemical Constituents in Alfalfa and Their Antioxidant Activity[D]. Urumchi: Xinjiang University, 2008. [25] Yu X H, Jiang Y H, Zhang W D, et al . A preliminary study on reducing the toxins of Eupatorium adenophorum Spreng by microbes. Journal of Yunnan University, 1995, 17(3): 259-263. [26] Liu H, Song Z H, Feng J. Advances in detoxification of Eupatorium adenophorum Spreng feed research. Heilongjiang Animal Science and Veterinary Medicine, 2012, (11): 37-39. [27] Mo C H, Shen M H, Ma S Q, et al . Toxicity test of silage of Oxytropis ochrocephala in sheep. Animal Husbandry & Veterinary Medicine, 2013, 45(8): 92-94. [1] 史志诚. 中国草地重要有毒植物[M]. 北京: 中国农业出版社, 1997: 124-139. [3] 王庆海, 李翠, 庞卓, 等. 中国草地主要有毒植物及其防控技术. 草地学报, 2013, 21(5): 831-841. [4] 沈景林, 周学东, 孟杨, 等. 草地狼毒化学防除的试验研究. 草业科学, 1999, 16(6): 53-56. [5] 孙新纹. 狼毒的化学防除试验研究. 草业科学, 2005, 22(4): 88-90. [6] 邢福, 刘卫国, 王成伟. 中国草地有毒植物研究进展. 中国草地, 2001, 23(5): 57-62. [7] 谭成虎. 甘肃天然草原主要毒草分布、危害及其防治对策. 草业科学, 2006, 23(12): 98-101. [8] 樊鹏辉, 郭斌, 吴道长, 等. 中国草地有毒棘豆的危害、防控及开发利用. 中国草地学报, 2012, 34(6): 101-106. [9] 王帅, 贾琦珍, 陈根元, 等. 小花棘豆添加量对卡拉库尔羊利用青贮饲料的影响. 饲料工业, 2011, 12(19): 55-58. [10] 王帅, 胡建军, 阿力木别克, 等. 南疆地区小花棘豆的营养成分分析. 草业科学, 2010, 27(5): 136-139. [11] 姚玉霞, 李云. 宁夏不同地区紫花苜蓿的营养成分分析. 安徽农业科学, 2011, 39(36): 22344-22345, 22410. [12] 王鑫, 马永祥, 李娟. 紫花苜蓿营养成分及主要生物学特性. 草业科学, 2003, 20(10): 39-41. [13] 孙仕仙, 陶瑞, 杨思林, 等. 紫花苜蓿范氏纤维素含量与体外消化率的相关性研究. 西南农业学报, 2012, 25(6): 2356-2359. [15] 郭荣富, 陈克嶙, 张曦, 等. 反刍动物限制性氨基酸营养及其氨基酸模式. 中国饲料, 2001, (1): 19-20. [16] 杨金波, 文斯敏, 赵瑞. 反刍动物蛋白质及氨基酸营养研究进展. 广东饲料, 2010, 19(6): 33-37. [17] 柳琪, 滕葳, 张炳春. 中华鳖氨基酸和微量元素的分析与研究.氨基酸和生物资源, 1995, 17(1): 18-21. [18] 秦彧, 李晓忠, 姜文清, 等. 西藏主要作物与牧草营养成分及其营养类型研究. 草业学报, 2010, 19(5): 122-129. [19] 张吉鵾, 李龙瑞. 粗饲料在反刍动物营养中的作用及影响粗饲料营养价值的因素. 中国乳业, 2003, (12): 25-29. [20] 李改英, 刘德稳, 高腾云, 等. 苜蓿的营养特点及对反刍动物作用机理的研究. 江西农业学报, 2011, 23(1): 172-175, 180. [21] 吴秋珏, 徐廷生. 饲粮中中性洗涤纤维的研究进展. 饲料工业, 2006, 27(7): 14-16. [22] 陈艳, 王之盛, 张晓明, 等. 常用粗饲料营养成分和饲用价值分析. 草业学报, 2015, 24(5): 117-125. [23] 张利平, 吴建平, 汪晓娟, 等. 紫花苜蓿芽及其产品中氨基酸含量的测定与营养分析. 食品科技, 2006, (12): 141-144. [24] 张纵圆. 新疆紫花苜蓿中有效化学成分分析及其抗氧化性研究[D]. 乌鲁木齐: 新疆大学, 2008. [25] 余晓华, 江蕴华, 张无敌, 等. 微生物降解紫茎泽兰毒素的初步研究. 云南大学学报(自然科学版), 1995, 17(3): 259-263. [26] 刘辉, 宋章会, 冯杰. 紫茎泽兰脱毒饲料的研究进展. 黑龙江畜牧兽医, 2012, (11): 37-39. [27] 莫重辉, 沈明华, 马双清, 等. 青贮黄花棘豆对羊的毒性试验. 畜牧与兽医, 2013, 45(8): 92-94. |