核心作用在下一代生物能源的选择和提高的产量。而可供研究的生物技术主要有: 木质素改性、非生物抗逆性、营养利用、细胞壁消化酶的植入表达、生物质生产、 原料的建立、转基因的生物抑制、代谢工程和基础研究。 参考文献 [1]Bo'rjesson,P.and Berglund,M.Environmental systems analysis of biogas systems-part 1: fuel-cycle emissions[J].Biomass,Bioen,2006,30:469-485. [2]Bo'rjesson,P.and Berglund,M.Environmental systems analysis of biogas systems-part II:the environmental impact of replacing various reference systems[J].Biomass.Bioen.2007,31:326-344. [3]Adler,P.R.et al.Life-cycle assessment of net greenhouse-gas flux for bioenergy cropping systems[J].Ecol.Appl,2007,17:675-691. [4]Hill,J.et al.Environmental,economic,and energetic costs and benefifits of biodiesel and ethanol biofuels[J].Proc.Natl.Acad.Sci.U.S.A.2006,103:11206-11210. [⑤王存文,段晓玲,王为国,等.秸秆中木质素对其超低酸水解过程的影响.生物质化学工程, 2013,47(1)19-26. [6]王炜.在转基因水稻种子里表达生产纤维素酶D1.浙江大学,2007.核心作用在下一代生物能源的选择和提高的产量。而可供研究的生物技术主要有: 木质素改性、非生物抗逆性、营养利用、细胞壁消化酶的植入表达、生物质生产、 原料的建立、转基因的生物抑制、代谢工程和基础研究。 参考文献 [1] Bo¨rjesson, P. and Berglund, M. Environmental systems analysis of biogas systems–part 1: fuel-cycle emissions[J]. Biomass, Bioen,2006,30:469-485. [2] Bo¨rjesson, P. and Berglund, M. Environmental systems analysis of biogas systems–part II: the environmental impact of replacing various reference systems[J]. Biomass. Bioen. 2007, 31:326-344. [3] Adler, P.R. et al. Life-cycle assessment of net greenhouse-gas flux for bioenergy cropping systems[J]. Ecol. Appl, 2007,17: 675-691. [4] Hill, J. et al. Environmental, economic, and energetic costs and benefifits of biodiesel and ethanol biofuels[J]. Proc. Natl. Acad. Sci. U. S. A. 2006,103: 11206-11210. [5] 王存文, 段晓玲, 王为国, 等. 秸秆中木质素对其超低酸水解过程的影响[J]. 生物质化学工程, 2013, 47(1):19-26. [6] 王炜. 在转基因水稻种子里表达生产纤维素酶[D]. 浙江大学, 2007