[1] Ragauskas AJ, Williams CK, Davison BH, et al. The path forward for biofuels and biomaterials.Science,2006,311: 484-489. [2] 郭廷杰.贯彻科学发展观拓展资源再生产业促进生物质能利用.再生资源研究,2005,(2):1-4. [3] 常振明,韩平,曲春洪.再生能源利用现状与未来展望.当代石油化工,2004,12(12):19-25. [4] 王武震,张伟红.我国的能源战略初探.商场现代化,2006,454(1):202-203. [5] 田春荣.2005年中国石油进出口状况分析.国际石油经济,2006,14(3):1-7. [6] 于猛. 1.22亿hm2(2005年)-我国耕地面积逼近“红线”.中国稻米,2006,3(13):13-13. [7] 陈从喜.在国土资源领域推动循环经济发展的思考.国土资源情报,2005,(9):28-32. [8] 牛星,欧名豪,李晓刚,吴静.江苏省耕地资源可持续利用研究.中国农业资源与区划,2005,26(2):6-9. [9] 任美锷.中国滩涂开发利用的现状与对策.中国科学院院刊,1996,11(6):440-443. [10] 江苏农业资源开发局.江苏海垦区.北京:海洋出版社,1999:191-197. [11] 张忍顺,陈才俊.江苏岸外沙洲演变与条子泥并陆前景研究.北京:海洋出版社,1992:8-18. [12] Sharma SK. Mechanism of tolerance in rice varieties differing in sodicity tolerance. Plant and Soil,1986,93(1): 141-145. [13] 王燕飞,刘华君,张立明,等.栽培甜菜的种类及利用价值.中国糖料,2004,(4):43-46. [14] 黎大爵.亟待开发的甜高梁酒精燃料.中国农业科技导报,2003,5(4):48-51. [15] 刘庆昌.甘薯在我国粮食和能源安全中的重要作用.科技导报(北京),2004,(9):21-22. [16] 郭小丁,邬景禹,唐君,孙近友.甘薯品种资源田间耐盐性鉴定研究.作物品种资源,1994,(3):34-36. [17] 孙纪录,贾英民,桑亚新.菊芋资源的开发利用.食品科技,2003,(1):27-29. [18] 夏天翔,刘兆普,綦长海,等.莱州湾利用海水资源灌溉菊芋研究.干旱地区农业研究,2004,22(3):60-63. [19] Shepard J,Tolbert V. The role of short-rotation woody crops in sustainable development. Proceedings of the First Conferenee of the Short Rotation Woody Crops Working Group. In Oak Ridge,TN:Oak Ridge National Laboratory,1996: 15-22. [20] Seth MK. Trees and their economic importance. Botany Review 2003,69(4):321-376. [21] 董受琴.芨芨草的生物学特性与生态经济效益.科技情报开发与经济,2004,14(4):190-191. [22] 田春龙,郭斌,刘春朝.能源植物研究现状和展望.生物加工过程,2003,3(1):14-19. [23] Anwar F, Bhanger MI, Nasir MK, et al. Analytical characterization of Salicornia bigelovii seed oil cultivated in Pakistan. J Agric Food Chem,2002,50(15):4210-4214. [24] 吕忠进, P.Glenn E.全海水灌溉作物:北美海蓬子.世界农业,2001,(2):14-16. [25] 綦翠华,张伟.盐生植物资源的开发利用前景.资源与生产,2004,(4):20-21. [26] 阮成江,钦佩,陈景文,等.海滨锦葵种子营养成分分析.作物学报,2004,30(9):901-905. [27] 阮成江,钦佩,韩睿明.耐盐油料植物海滨锦葵优良品系选育.作物杂志,2005,(4):71-72. [28] Aronson JA. Halophytes: a database of salt tolerant plants of the world. Tueson:Office of Arid land Studies Tueson,1989:1-77. [29] 赵可夫,周三,范海.中国盐生植物种类补遗.植物学通报,2002,19(5):611-613. [30] 赵可夫,李法曾,樊守金,等.中国的盐生植物.植物学通报,1999,16(3):201-207. [31] Nanjio T,Kobayashi TM,Yoshida Y. Antisense suppression of proline degradation improves tolerance to freezing and salinity in Arabidopsis thaliana. FEBS Lett,1999,461:205-210. [32] Zhang H,Blumwald E. Transgenic salt-tolerant tomato plants accumulate salt in foliage but not in fruit. Nat Biotechn,2001,19:765-768. [33] Zhang HX,Hodson JN,Williams JP. Engineering salt?tolerant Brassica plants:Characterization of yield and seed oil quality in transgenic plants with increased vacuolar sodium acumulation. PNAS,2001,98(22):12832-12836. [34] 孙艳香,王丹,白艳玲,等.大豆GmNHX1在百脉根中的过表达研究:体内Na+含量的降低是耐盐性提高的基础.科学通报,2006,51(8):928-936. [35] Kinney AJ. Development of genetically engineered soybean oils for food applications.Journal of Food Lipids.1996,(3):273-292. [36] Liu Q,Singh SP,Green AG. High-stearic and high-oleic cottonseed oils produced by hpRNA-mediated posttranscriptional gene silencing.Plant Physiology,2002,129:1732-1743.
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