Reference:[1]Hou X C, Fan X F, Wu J X, et al. Evaluation of economic benefits and ecological values of cellulosic bioenergy grasses in Beijing suburban areas[J]. Acta Prataculturae Sinica, 2011, 20(6): 12-17. [2]Dai W Y, Guo H R, Zhang X L, et al. A preliminary study on fermentation technology in the manufacture of fuel alcohol using annual ryegrass[J]. Acta Prataculturae Sinica, 2012, 21(1): 220-228. [3]Nyambati E M, Sollenberger L E, Kunkle W E. Feed intake and lactation performance of dairy cows offered napiergrass supplemented with legume hay[J]. Livestock Production Science, 2003, 83(2): 179-189.[4]Yue H, Chen Z B, Huang Y H. Adaptability of Pennisetum purpureum to eroded badlands of granite and its effects of soil and water conservation[J].Journal of Fujian Agriculture and Forestry University(Natural Science Edition), 2007, 36(2): 186-189. [5]Ning L Z, Jiang H H. Grassy soda-AQ pulping papermaking test[J]. Hunan Papermaking, 2000, 1: 10-11. [6]Zhou D G, Zhang X W, Xu Y L, et al. Study on the Technology of MDF from Poplar and Pennisetum americanum Stalk[J]. China Forestry Science and Technolugy, 2007, 21(5): 58-60.[7]Zhong X X, She J M, Gu H R, et al. Study on techniques of plant regeneration from immature inflorescences of Pennisetum purpureum in vitro[J]. Acta Prataculturae Sinica, 2007, 16(3): 43-48. [8]Zhong X X, She J M, Gu H R, et al. Impact of medium with different concentrations of NaCl to immature inflorescences in vitro culture[J]. Jiangsu Agricultural Sciences, 2007, 5: 145-147. [9]Zhong X X, Zhang J L, She J M, et al. Acquirement of Salt-tolerant Plants by Somatic Mutant Screening in Pennisetum purpureum[J]. Jiangsu Journal of Agricultural Sciences, 2009, 25(6): 1325-1329. [10]Chen Z T, Zhang L M, Huang X S, et al. Relationship between the natomic structure on leaf and stem of Hybrid Pennisetum and its main biological characters[J]. Chinese Journal of Grassland, 2009, 31(6): 39-43. [11]Takara D, Khanal S K. Green processing of tropical banagrass into biofuel and biobased products: an innovative biorefinery approach[J]. Bioresour Technology, 2011, 102(2): 1587-1592. [12]Ge X M, Burner D M, Xu J F, et al. Bioethanol production from dedicated energy crops and residues in Arkansas, USA[J]. Biotechnology Journal, 2011, 6(1): 66-73.[13]Zhang J Q, Lin L, Sun Y, et al. Advance of studies on structure and decrystallization of Cellulose[J]. Chemistry and Inustry of Forest Products, 2008, 28(6): 109-114. [14]Himmel M E, Ding S Y, Johnson D K, et al. Biomass recalcitrance: engineering plants and enzymes for biofuels production[J]. Science, 2007, 315: 804-807. [15]Sarath G, Dien B, Sarath A J, et al. Ethanol yields and cell wall properties in divergently bred switchgrass genotypes[J]. Bioresource Technology, 2011, 102: 9579-9585.[16]Studera M H, DeMartinia J D, Davisb M F, et al. Lignin content in natural Populus variants affects sugar release[J]. Proceedings of the National Academy of Sciences USA, 2011, 108(15): 6300-6305.[17]Lorenz A J, Anex R P, Isci A, et al. Forage quality and composition measurements as predictors of ethanol yield from maize (Zea mays L.) stover[J]. Biotechnology for Biofuels, 2009, 2(5): doi:10.1186/1754 6834 2 5.[18]Yang S. Feed Analysis and feed quality detection technology (first edition)[M]. Beijing: Beijing Agricultural Press, 1993: 58-63. [19]Zhao Y L, Dolat A, Steinberger Y. Biomass yield and changes in chemical composition of sweet sorghum cultivars grown for biofuel[J]. Field Crops Research, 2009, 111: 55-64.[20]Godin B, Lamaudière S, Agneessens R, et al. Chemical characteristics and biofuels potentials of various plant biomasses: influence of the harvesting date[J]. Journal of the Science of Food and Agriculture, 2013, 93(13):3216-3224.[21]Serapiglia M J, Humiston M C, Xu H W, et al. Enzymatic saccharification of shrub willow genotypes with differing biomass composition for biofuel production[J]. Front Plant Science, 2013, doi: 10.3389/fpls.2013.00057.[22]Li X, Ximenes E, Kim Y, et al. Lignin monomer composition affects Arabidopsis cell-wall degradability after liquid hot water pretreatment[J]. Biotechnol Biofuels, 2010, 3: 27-33.[23]Simmons B A, Loque D, Ralph J. Advances in modifying lignin for enhanced biofuel production[J]. Current Opinion in Plant Biology, 010, 13(3): 313-320. [24]Liu J N, Shi Y S, Wang Y Q, et al. Growth dynamics and optimum harvest period of sorghum hybrid sudangrass[J]. Acta Prataculturae Sinica, 2011, 20(1): 31-37. [25]Smale M, Jason H, Paul W H, et al. The contribution of genetic resources and diversity to wheat production in the Punjab of Pakistan[J]. American Journal of Agricultural Economics, 1998, 80: 482-483.[26]Wang J, Shen W T, Zhang Y W, et al. Effect of Planting Density and Cutting Frequency on Biomass Yield and Quality of Pennisetum americanum×P.purpureum[J]. Acta Agrectir Sinica, 2010, 18(4): 589-593. [27]Huang S Z, Xie S S, Rao B R. Analysis on the influences of different cutting height on the yield and quality of hybrid napiergrass "Nanmu No. 1"[J]. Fujian Agricultural Science and Technology, 2012, (5): 69-71.参考文献:[1]侯新村, 范希峰, 武菊英, 等. 纤维素类能源草在京郊地区的经济效益与生态价值评价[J]. 草业学报, 2011, 20(6): 12-17. [2]代〖JP4〗〖HT5,7"F〗王〖HT5,6"F〗莹〖HT4F〗, 郭和蓉, 张兴龙, 等. 一年生黑麦草制取燃料酒精发酵工艺的初步研究[J]. 草业学报, 2012, 21(1): 220-228. [3]Nyambati E M, Sollenberger L E, Kunkle W E. Feed intake and lactation performance of dairy cows offered napiergrass supplemented with legume hay[J]. Livestock Production Science, 2003, 83(2): 179-189.[4]岳辉, 陈志彪, 黄炎和. 象草在花岗岩侵蚀劣地的适应性及其水土保持效应[J].福建农林大学学报(自然科学版), 2007, 36(2):186-189. [5]宁连珍, 蒋红花. 象草烧碱—AQ法制浆草纸试验[J]. 湖南造纸, 2000, 1: 10-11. [6]周定国, 张晓伟, 徐咏兰, 等. 杨木/狼尾草复合中密度纤维板工艺研究[J]. 林业科技开发, 2007, 21(5): 58-60.[7]钟小仙, 佘建明, 顾洪如, 等. 象草幼穗离体培养植株再生研究[J]. 草业学报, 2007, 16(3): 43-48. [8]钟小仙, 佘建明, 顾洪如, 等. 培养基不同浓度NaCl对象草离体筛选的影响[J]. 江苏农业科学, 2007, 5: 145-147. [9]钟小仙, 张建丽, 佘建明, 等. 体细胞突变体筛选法获得象草耐盐植株[J]. 江苏农业学报, 2009, 25(6): 1325-1329. [10]陈钟佃, 张丽梅, 黄秀声, 等. 杂交狼尾草茎叶解剖结构及其与主要生物学特性的联系[J]. 中国草地学报, 2009, 31(6): 39-43. [11]Takara D, Khanal S K. Green processing of tropical banagrass into biofuel and biobased products: an innovative biorefinery approach[J]. Bioresour Technology, 2011, 102(2): 1587-1592. [12]Ge X M, Burner D M, Xu J F, et al. Bioethanol production from dedicated energy crops and residues in Arkansas, USA[J]. Biotechnology Journal, 2011, 6(1): 66-73.[13]张景强, 林鹿, 孙勇, 等. 纤维素结构与解结晶的研究进展[J]. 林产化学与工业, 2008, 28(6): 109-114. [14]Himmel M E, Ding S Y, Johnson D K, et al. Biomass recalcitrance: engineering plants and enzymes for biofuels production[J]. Science, 2007, 315: 804-807. [15]Sarath G, Dien B, Sarath A J, et al. Ethanol yields and cell wall properties in divergently bred switchgrass genotypes[J]. Bioresource Technology, 2011, 102: 9579-9585.[16]Studera M H, DeMartinia J D, Davisb M F, et al. Lignin content in natural Populus variants affects sugar release[J]. Proceedings of the National Academy of Sciences USA, 2011, 108(15): 6300-6305.[17]Lorenz A J, Anex R P, Isci A, et al. Forage quality and composition measurements as predictors of ethanol yield from maize (Zea mays L.) stover[J]. Biotechnology for Biofuels, 2009, 2(5): doi:10.1186/1754-6834-2-5.[18]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. [19]Zhao Y L, Dolat A, Steinberger Y. Biomass yield and changes in chemical composition of sweet sorghum cultivars grown for biofuel[J]. Field Crops Research, 2009, 111: 55-64.[20]Godin B, Lamaudière S, Agneessens R, et al. Chemical characteristics and biofuels potentials of various plant biomasses: influence of the harvesting date[J]. Journal of the Science of Food and Agriculture, 2013, 93(13):3216-3224.[21]Serapiglia M J, Humiston M C, Xu H W, et al. Enzymatic saccharification of shrub willow genotypes with differing biomass composition for biofuel production[J]. Front Plant Science, 2013, doi: 10.3389/fpls.2013.00057.[22]Li X, Ximenes E, Kim Y, et al. Lignin monomer composition affects Arabidopsis cell-wall degradability after liquid hot water pretreatment[J]. Biotechnol Biofuels, 2010, 3: 27-33.[23]Simmons B A, Loque D, Ralph J. Advances in modifying lignin for enhanced biofuel production[J]. Current Opinion in Plant Biology, 2010, 13(3): 313-320. [24]刘建宁, 石永红, 王运琦, 等. 高丹草生长动态及收割期的研究[J]. 草业学报, 2011, 20(1): 31-37. [25]Smale M, Jason H, Paul W H, et al. The contribution of genetic resources and diversity to wheat production in the Punjab of Pakistan[J]. American Journal of Agricultural Economics, 1998, 80: 482-483.[26]王静, 沈文彤, 张蕴薇, 等. 种植密度和刈割频率对杂交狼尾草产量和品质的影响[J]. 草地学报, 2010, 18(4): 589-593. [27]黄水珍, 谢善松, 饶宝蓉. 不同刈割高度对南牧1号杂交象草产量与品质的影响分析[J]. 福建农业科技, 2012, (5): 69-71. |