[1] Xie G H, Guo X Q, Wang X, et al . An overview and perspectives of energy crop resources. Resources Science, 2007, 29(5): 74-80. [2] Fan X F, Hou X C, Wu J Y, et al . Research progress and development potential analysis of bioenergy grass in the north of China. Journal of China Agricultural University, 2012, 17(6): 150-158. [3] China Renewable Energy Development Project Strategic Research Group. China Renewable Energy Development Strategy Research Series(Biomass volume)[M]. Beijing: China Electric Power Press, 2008: 40-48. [4] Zhuang D, Jiang D, Liu L, et al . Assessment of bioenergy potential on marginal land in China. Renewable and Sustainable Energy Reviews, 2011, 15(2): 1050-1056. [5] Xie G H. Progress and direction of non-food biomass feedstock supply research and development in China. Journal of Agricultural University, 2012, 17(6): 1-19. [6] Xie G H. An overview on classification and utilizations of energy plants. Journal of Agricultural University, 2011, 16(2): 1-7. [7] Yi Z L. Exploitation and utilization of Miscanthus as energy plant. Journal of Hunan Agricultural University (Natural Sciences), 2012, 38(5): 455-463. [8] Nishiwaki A, Mizuguti A, Kuwabara S, et al . Discovery of natural Miscanthus (Poaceae) triploid plants in sympatric populations of Miscanthus sacchariflorus and Miscanthus sinensis in southern Japan. American Journal of Botany, 2011, 98(1): 154-159. [9] Fan X F, Zuo H T, Hou X C, et al . Potential of Miscanthus spp. and Triarrhena spp. as herbaceous energy plants. Chinese Agricultural Science Bulletin, 2010, 26(14): 381-387. [10] Fan X F, Hou X C, Zuo H T, et al . Biomass yield and quality of three kinds of bioenergy grasses in Beijing of China. Scientia Agricultura Sinica, 2010, 43(16): 3316-3322. [11] Yan J, Chen W L, Luo P, et al . Variability and adaptability of Miscanthus species evaluated for energy crop domestication. GCB Bioenergy, 2012, 4(1): 49-60. [12] Ai X, Zhu Y Y, Jiang J X, et al . Flowering phenology and reproductive features of artificial F 1 hybrids between Miscanthus floridulus and M. sacchariflorus . Acta Prataculturae Sinica, 2014, 23(3): 118-126. [13] Fan X F, Hou X C, Zhu Y, et al . Biomass yield and quality of hybrid Pennisetum . Chinese Journal of Grassland, 2012, 34(1): 48-52. [14] Pan Y C, Li Y, Wang Y. Preliminary selection of energy grasses. Journal of Shenyang Normal University (Natural Science), 2011, 29(4): 571-573. [15] Yan J J, Bai S Q, Liang X Z, et al . Investigation on germplasm resources of energy plant- Saccharum arundinaceum Ratz.in Sichuan Province. Prataculturae and Animal Husbandry, 2009, (3): 29-31. [16] McLaughlin S B, Kszos L A. Development of switchgrass ( Panicum virgatum ) as a bioenergy feedstock in the United States Biomass and Bioenergy, 2005, 28(6): 515-535. [17] Sanderson M A, Reed R L, Ocumpaugh W R, et al . Switchgrass cultivars and germplasm for biomass feedstock production in Texas. Bioresource Technology, 1999, 67(3): 209-219. [18] Liu J H , Zuo Y M, Huang B Z, et al . Comparison experiment of four Setaria sphacelata varieties in rainy southern subtropical areas of Yunnan. Acta Agrestia Sinica, 2014, 24(2): 429-432. [19] Yang S. Feed Analysis and Feed Quality Detection Technology (first edition)[M]. Beijing: Beijing Agricultural Press, 1993: 58-63. [20] Van Soest P J, Robertson J B, Lewis B A. Methods for dietary fiber,neutral detergent fiber,and nonstarch polysaccharides in relation to animal production. Journal of Dairy Science, 1991, 74: 3583-3597. [21] Zheng X, Wei Z W, Wu Z N, et al . Adaptability evaluation of different Avena sativa varrieties in Yangzhou Area. Acta Agrestia Sinica, 2013, 21(2): 272-279. [22] Schmer M R, Vogel K P, Mitchell R B, et al . Net energy of cellulosic from switchgrass. PNAS, 2008, 105(2): 464-469. [23] Chen S L, Yu R, Cheng Z S, et al . Principal component analysis and cluster analysis on biological characters of the peanut cultivars. Journal of Peanut Science, 2007, 36(2): 29-34. [24] Lewandowski I, Scurlockb J M O, Lindvall E, et al . The development and current status of perennial rhizomatous grasses as energy crops in the US and Europe. Biomass and Bioenergy, 2003, 25(4): 335-361. [25] Frank M, Chmielewski, Thomas R. Response of tree phonological to climate change across Europe. Agricultural and Forest Meteorology, 2001, 108(2): 101-112. [26] Zhang X B, Ren J R, Zhang D E. Phonological observations on Larix principis-rupprechtii Mayr in primary seed orchard. Journal of Forestry Research, 2001, 12(3): 201-204. [27] Yuan Z H, Sun X Y, Yan Y J, et al . An orthogonal experiment on technical needs for Chinese silver grass hydrolysis process with dilute sulphuric acid. Acta Energiae Solaris Sinica, 2006, 27(6): 631-634. [28] Xi Q G, Liu Y X. An overview and processing technology of tall grasses. Pratacultural Science, 2005, 22(1): 32-33. [29] Li G Y, Li J L, Wang Y, et al . Study on the selection and evaluation on fine energy plants. Renewable Energy Resources, 2007, 25(6): 84-89. [30] Cheng B J, Lu X Y, Jiang L K, et al . Biomass Energy Science[M]. Beijing: Chemical Industry Press, 2008: 83-84. [1] 谢光辉, 郭兴强, 王鑫, 等. 能源作物资源现状与发展前景. 资源科学, 2007, 29(5): 74-80. [2] 范希峰, 侯新村, 武菊英, 等. 我国北方能源草研究进展及发展潜力. 中国农业大学学报, 2012, 17(6): 150-158. [3] 中国可再生能源发展战略研究项目组. 中国可再生能源发展战略研究丛书(生物质能卷)[M]. 北京: 中国电力出版社, 2008: 40-48. [5] 谢光辉. 非粮生物质原料体系研究发展及方向. 中国农业大学学报, 2012, 17(6): 1-19. [6] 谢光辉. 能源植物分类及其转化利用. 中国农业大学学报, 2011, 16(2): 1-7. [7] 易自力. 芒属能源植物资源的开发与利用. 湖南农业大学学报(自然科学版), 2012, 38(5): 455-463. [9] 范希峰, 左海涛, 侯新村, 等. 芒和荻作为草本能源植物的潜力分析. 中国农学通报, 2010, 26(14): 381-387. [10] 范希峰, 侯新村, 左海涛, 等. 三种草本能源植物在北京地区的产量和品质特性. 中国农业科学, 2010, 43(16): 3316-3322. [12] 艾辛, 朱玉叶, 蒋建雄, 等. 五节芒与荻人工杂交F 1 群体开花物候期与生殖特性研究. 草业学报. 2014, 23(3): 118-126. [13] 范希峰, 侯新村, 朱毅, 等. 杂交狼尾草作为能源植物的产量和品质特性. 中国草地学报, 2012, 34(1): 48-52. [14] 潘一晨, 李阳, 王艳. 能源禾草的初步筛选. 沈阳师范大学学报(自然科学), 2011, 29(4): 571-573. [15] 鄢家俊, 白史且, 梁绪振, 等. 生物质能源潜力植物-斑茅种质资源考察与收集. 草业与畜牧, 2009, (3): 29-31. [18] 刘金海, 左应梅, 黄必志, 等. 非洲狗尾草4品种在滇南的品比试验. 草地学报, 2014, 24(2): 429-432. [19] 杨胜. 饲料分析及饲料质量检测技术(第一版)[M]. 北京: 北京农业出版社, 1993: 58-63. [21] 郑曦, 魏臻武, 武自念, 等. 不同燕麦品种(系)在扬州地区的适应性评价. 草地学报, 2013, 21(2): 272-279. [23] 陈四龙, 玉荣, 程增书, 等. 花生品种(系)生物学性状的主成分分析和聚类分析. 花生学报, 2007, 36(2): 29-34. [27] 袁振宏, 孙晓英, 颜涌捷, 等. 芒草稀硫酸水解工艺条件的正交实验. 太阳能学报, 2006, 27(6): 631-634. [28] 席庆国, 刘玉新. 高大禾草加工技术概况. 草业科学, 2005, 22(1): 32-33. [29] 李高扬, 李建龙, 王艳, 等. 优良能源植物筛选及评价指标探讨. 可再生能源, 2007, 25(6): 84-89. [30] 程备久, 卢向阳, 蒋立科, 等. 生物质能学[M]. 北京: 化学工业出版社, 2008: 83-84. |