[1] National planning of dominant region for meat sheep (2008~2015). Chinese Journal of Animal Husbandry and Veterinary Medicine, 2009, (2): 8-9. 全国肉羊优势区域布局规划(2008~2015). 中国畜牧兽医文摘, 2009, (2): 8-9. [2] Alatan C B D, Haas B L G. Current situation and thinking of work of grassland supervision and management in Bahrain Right Banner. Contemporary Livestock, 2017, (14): 1-2. 阿拉坦曹布道, 哈斯宝力格. 巴林右旗草原监督管理工作现状及思路. 当代畜牧, 2017, (14): 1-2. [3] Xu Y F, Wang H, Lü L Y, et al. Grassland species composition and diversity of main grassland areas in Chifeng. Hubei Agricultural Science, 2017, 56(11): 2031-2036. 许玉凤, 王鹤, 吕林有, 等. 赤峰草原主要分布区物种组成及多样性. 湖北农业科学, 2017, 56(11): 2031-2036. [4] Hu H L, Lu D X, Li Y K.Research progress in the determination of grazing intake by saturated alkane method. Animal Husbandry and Feed Science, 2004, (6): 6-8. 胡红莲, 卢德勋, 李亚奎. 饱和烷烃法测定放牧采食量的研究进展. 畜牧与饲料科学, 2004, (6): 6-8. [5] Sun Z W, Deng B, Lou Y J, et al. Key problems on determination nutritional status of grazing animals. Acta Agrestia Sinica, 2012, 20(3): 389-392. 孙泽威, 邓波, 娄玉杰, 等. 饱和链烷烃技术测定放牧动物营养状况的几个关键问题. 草地学报, 2012, 20(3): 389-392. [6] Zhang L Y.Feed analysis and feed quality testing technology (3rd edition). Beijing: China Agricultural University Press, 2007: 48-80,140-150. 张丽英. 饲料分析及饲料质量检测技术(3版). 北京: 中国农业大学出版社, 2007: 48-80, 140-150. [7] Lin L J, Zhang Y J.A study on the n-alkane patterns of several temperate grass species. Acta Prataculturae Sinica, 2006, 15(4): 115-121. 林立军, 张英俊. 温带常见牧草中饱和烷烃浓度模式研究. 草业学报, 2006, 15(4): 115-121. [8] Guo Y J, Long R J, Zhang D G, et al. The seasonal dynamics of nutrient contents in some dominant shrubs and forage herbs on alpine meadow in eastern Qilian Mountain, China. Pratacultural Science, 2001, 18(6): 36-39. 郭彦军, 龙瑞军, 张德罡, 等. 东祁连山高寒草甸灌木和牧草营养成分含量季节变化动态. 草业科学, 2001, 18(6): 36-39. [9] Yang Z X, Cai W X.Study on changing low of nutritive composition of some major herbages in grassheath in Guizhou. Grassland of China, 1994, (4): 54-58. 杨泽新, 蔡维湘. 贵州灌丛草地几种常见灌木和草本类牧草营养成分含量变化规律研究. 中国草地, 1994, (4): 54-58. [10] Gu Y, Sang D, Sun H Z, et al. Evaluation on nutritive value of some common forage grasses in desert steppe area of Maowusu sandy land using CNCPS. Animal Husbandry and Feed Science, 2018, 39(5): 51-56. 谷英, 桑丹, 孙海洲, 等. CNCPS评定毛乌素沙地荒漠化草原区常见牧草营养价值的研究. 畜牧与饲料科学, 2018, 39(5): 51-56. [11] Wu K S, Fu H, Zhang X Y, et al. The seasonal dynamics of nutrient contents and the nutrition balanced values in the eight forage species in the Alxa desert grassland. Arid Zone Research, 2010, 27(2): 257-262. 吴克顺, 傅华, 张学英, 等. 阿拉善荒漠草地8种牧草营养物质季节动态及营养均衡价评价. 干旱区研究, 2010, 27(2): 257-262. [12] Xue S Y, Li J Y, Jin H, et al. Dynamic changes of nutrient contents in several pastures and shrubs in desert areas. Feed Industry, 2011, 32(1): 44-47. 薛树媛, 李九月, 金海, 等. 荒漠地区几种牧草和灌木中营养成分含量的动态变化. 饲料工业, 2011, 32(1): 44-47. [13] Zhou X H, Zhang L, Zheng Z C, et al. The research of seasonal variation of calcium phosphorus and magnesium in the alpine meadow meadow soil-grass-ivestock ecosystem in Tibetan Plateau. China Herbivores, 2005, 25(2): 17-20. 周学辉, 张力, 郑中朝, 等. 青藏高原高寒草甸草场土-草-畜生态系统中钙、磷、镁的季节变化研究.中国草食动物, 2005, 25(2): 17-20. [14] Liang J Y, Jiao T, Wu J P, et al. The relationship between seasonal forage digestibility and forage nutritive value in different grazing pastures. Acta Prataculturae Sinica, 2015, 24(6): 108-115. 梁建勇, 焦婷, 吴建平, 等. 不同类型草地牧草消化率季节动态与营养品质的关系研究. 草业学报, 2015, 24(6): 108-115. [15] Zhang Y J, Yang G Y, Jin Z L, et al. A study on the nutritive trends of the six species of main herbages on subalpine meadows. Pratacultural Science, 1996, 13(5): 14-18. 张阅军, 杨桂英, 靳宗立, 等. 亚高山草甸6种主要牧草营养动态研究.草业科学, 1996, 13(5): 14-18. [16] Zhang Y J, Togamura Y, Akiyama F, et al. Differences in the n-alkane concentration of four species of wild plants in Japan. Grassland Science, 2002, 48(1): 50-52. [17] Smith D G, Mayes R W, Raats J G.Effect of species, plant part, and season of harvest on n-alkane concentrations in the cuticular wax of common rangeland grasses from southern Africa. Australian Journal of Agricultural Research, 2001, 52: 875-882. [18] Cui Z H, Liu S J, Chai S T, et al. Patterns of saturated alkanes concentration of 14 kinds of forage on typical meadow pasture in three rivers source region of Qinghai. Chinese Qinghai Journal of Animal and Veterinary Sciences, 2018, 48(4): 7-12. 崔占鸿, 刘书杰, 柴沙驼, 等. 三江源区典型草甸草场14种牧草饱和链烷烃浓度模式.青海畜牧兽医杂志, 2018, 48(4): 7-12. [19] Casson T, Rowe J B, Thorn C W, et al. The use of natural n-alkanes in medic and clover as indigestible markers. Proceedings of The Australian Society of Animal Production. 1990, 18: 462. [20] Xiao J Y, Hou F J, Yu Y W, et al. Estimation of herbage intake and digestibility of grazing animal using the n-alkanes technique. Acta Prataculturae Sinica, 2005, 14(4): 125-130. 肖金玉, 侯扶江, 于应文, 等. 链烷技术估测放牧动物牧草采食量与消化率. 草业学报, 2005, 14(4): 125-130. [21] Chen W, Lefroy R D B, Scott J M, et al. Field variations in alkane signatures among plant species in ‘degraded’ and perennial pastures on the Northern Tablelands of New South Wales. Australian Journal of Agricultural Research, 1998, 49(2): 263-268. |