[1]联合国粮农组织. 粮农组织食品价格指数和农产品价格指数. (2012-08-10)[2012-10-01] http://www.fao.org/worldfoodsituation/ wfs-home/foodpricesindex/zh/.
Food and Agriculture Organization of the United Nations. FAO Food Price Index. (2012-08-10)[2012-10-01] http://www.fao.org/ worldfoodsituation/ wfs-home/foodpricesindex/zh.
[2]王济民, 肖红波. “十二五”中国农业科技发展的战略需求、发展重点和对策建议. 中国农业科学, 2011, 44(11): 2398-2402.
Wang J M, Xiao H B. Strategic demands, development emphases and countermeasures of agricultural sciences and technology in the 12th-Five-Year period. Scientia Agricultura Sinica, 2011, 44(11): 2398-2402. (in Chinese)
[3]王宏杰. 中国农业科技自主创新管理体制研究[D]. 武汉: 华中农业大学, 2007.
Wang H J. Research on China’s agricultural science and technology innovation management system[D]. Wuhan: Huazhong Agricultural University, 2007. (in Chinese)
[4]温家宝. 关于发展社会事业和改善民生的几个问题. 求是, 2010(7): 3-16.
Weng J B. A few issues on the development of social undertakings and improving the people's livelihood. Seeking Truth, 2010(7): 3-16. (in Chinese)
[5]回良玉. 加强农业科技创新,健全基层推广体系, 加快推进中国特色农业现代化. 农村工作通讯, 2009(21): 6-9.
Hui L Y. Strengthen innovation of agricultural science and technology, and improve the grass-roots promotion system, speeding up the agricultural modernization with Chinese characteristics. Rural Work Communication, 2009(21): 6-9. (in Chinese)
[6]袁隆平. 转基因水稻商业化种植需慎重. 21世纪经济报道, (2009-05-26)[2012-10-01] http://www.21cbh.com/HTML/2009-5-27/ HTML_1W6XRYH2KBJV_2.html.
Yuan L P. The commercial cultivation of genetically modified rice requires careful. Financial Report of the 21st Century, (2009-05-26) [2012-10-01] http://www.21cbh.com/HTML/2009-5-27/HTML_ 1W6XRYH2KBJV_2.html. 2009, 5. (in Chinese)
[7]2010年我国超级稻推广超1亿亩. 粮食决策参考, 2010(24): 29.
In 2010 the planting areas of China Super Rice exceed 100000000 acres. Food Policy Reference, 2010(24): 29. (in Chinese)
[8]刘秉华, 杨丽. 矮败小麦的培育及其在小麦育种中的潜在价值. 科学通报, 1991, 36(4): 306-308.
Liu B H, Yang L. Dwarf male-sterile wheat cultivation and the potential value in wheat breeding. Chinese Science Bulletin, 1991, 36(4): 306-308. (in Chinese)
[9]刘秉华, 杨丽, 王山荭. 矮败小麦及其在矮化育种中的应用. 中国农业科学, 1994, 21(6): 702-706.
Liu B H, Yang L, Wang S H. Dwarf male-sterile wheat breeding and the application on breeding for dwarf plant type. Scientia Agricultura Sinica, 1994, 21(6): 702-706. (in Chinese)
[10]刘秉华, 杨丽. 小麦育种革命—矮败小麦育种技术前景. 北京农 业, 2007, 14(5): 11-12.
Liu B H, Yang L. Wheat breeding revolution-prospect of dwarf male-sterile wheat breeding technology. Beijing Agriculture, 2007, 14(5): 11-12. (in Chinese)
[11]我国棉花育种技术跃居世界前列. (2005-09-18)[2012-10-01] http://scitech.people.com.cn/GB/3704311.html
China's Cotton Breeding Technology Leapt to the Forefront of the World. (2005-09-18)[2012-10-01] http://scitech.people.com.cn/GB/ 3704311.html. (in Chinese)
[12]中国农业年鉴编辑委员会. 中国农业年鉴. 北京: 中国农业出版 社, 2012.
China Agricultural Yearbook Editing Committee. China Agricultural Yearbook. Beijing: China Agriculture Press, 2012. (in Chinese)
[13]新中国60年农业科技发展历程. (2009-08-11)[2012-10-01] http:// finance.qq.com/a/20090811/005608.htm .
In 60 years of new China agriculture science and technology development. (2009-08-11)[2012-10-01] People.com.cn. http://finance. qq.com/a/20090811/005608.htm . 2009.8. (in Chinese)
[14]陈化兰. H5N1禽流感疫苗研究及应用. 动物保健, 2006, 108(8): 32-33.
Chen H L. Research and application of H5N1 avian influenza vaccine. Animal Health, 2006, 108(8): 32-33. (in Chinese)
[15]我国研制出世界首个禽流感—新城疫重组二联活疫苗. 中国动物保健, 2006(1): 29.
Our country developed the world's first bird flu-Newcastle disease restructuring duplex live vaccine. China Animal Health. 2006(1): 29. (in Chinese)
[16]50年:六大突破领跑中国农业科技. 科技日报, 2007-10-31.
In 50 years: six breakthroughs leading Chinese agricultural science and technology, Science and Technology Daily, 2007-10-31. (in Chinese)
[17]中国科技进步对农业增长贡献率已达53%. 科技日报, 2012-2-28
China's scientific and technological progress on agricultural growth contribution rate has reached 53%. Science and Technology Daily, 2012-2-28. (in Chinese)
[18]石淑萍, 徐亚馨, 李喜升, 赵娜, 闻雅男, 滕雪莹. 当前农业科研项目实施管理的问题与对策. 农业科技管理, 2011,30(5): 30-31,47.
Shi S P, Xu Y X, Li X S, Zhao N, Wen Y N, Teng X Y. Problems and counter measures of current agriculture scientific research project management. Management of Agricultural Science and Technology, 2011, 30(5): 30-31, 47. (in Chinese)
[19]韩刚, 方辉, 刘英杰, 林连升. 我国农业科技评价存在问题及建议. 农业经济, 2012(3): 99-100.
Han G, Fang H, Liu Y J, Lin L S. Agricultural science and technology evaluation in China: problems and suggestions. Agricultural Economics, 2012(3): 99-100. (in Chinese)
[20]孙政才. 积极探索中国特色农业科技进步之路. (2009-10-21) [2012-10-01] http://www.gov.cn/gzdt/2009-10/21/content_1445710. htm.
Sun Z C. Actively explore the road of scientific and technological progress of agriculture with Chinese characteristics. (2009-10-21) [2012-10-01] http://www.gov.cn/gzdt/2009-10/21/content_1445710. htm. (in Chinese)
[21]石淑萍, 滕雪莹, 赵娜, 张俊红.农业科研单位科研激励机制探索.农业科技管理, 2010, 29(4): 59-61.
Shi S P, Teng X Y, Zhao N, Zhang J H. Probe into incentive mechanism of agricultural scientific research units. Management of Agricultural Science and Technology, 2010, 29(4): 59-61. (in Chinese)
[22]国家发展和改革委员会高技术产业司, 中国生物工程学会. 中国生物产业发展报告. 北京:化学工业出版社, 2011.
The National Development and Reform Commission , Chinese society of Biotechnology. Annual Report on Bioindustry in China. Beijing: Chemical Industry Press, 2011. (in Chinese)
[23]李宁, 连庆, 付仲文, 刘培磊. 浅析对转基因技术的认识误区. 农业科技管理, 2011, 30(6): 6-8.
Li N, Lian Q, Fu Z W, Liu P L. Analysis of misunderstanding on transgenic technology. Management of Agricultural Science and Technology, 2011. 30(6): 6-8. (in Chinese)
[24]王建康, 李慧慧, 张学才, 尹长斌, 黎裕, 马有志, 李新海, 邱丽娟, 万建民. 中国作物分子设计育种. 作物学报, 2011, 37(2): 191-200.
Wang J K, Li H H, Zhang X C, Yin C B, Li S, Ma Y Z, Li X H, Qiu L Q, Wan J M. Molecular design breeding in crops in China. Acta Agronomica Sinica, 2011, 37(2): 191-200. (in Chinese)
[25]梅旭荣. 节水农业技术. 北京: 中国农业科技出版社, 2007.
Mei X R. The Technology of Water-saving Agriculture. Beijing: China Agriculture Press, 2007. (in Chinese)
[26]李中华, 王国占, 齐飞. 我国设施农业发展现状及发展思路. 中国农机化, 2012, 239(1): 7-10.
Li Z H, Wang G Z, Qi F. Current situation and thinking of development of protected agriculture in China. Chinese Agricultural Mechanization, 2012, 239(1): 7-10. (in Chinese)
[27]陈志, 李树君. 加强农业装备自主创新, 提升农业装备制造业核心竞争力. 农业机械, 2007(3): 38-40.
Chen Z, Li S J. Strengthening independent innovation of agricultural equipment, enhance the core competitiveness of agricultural equipment manufacturing industry. Farm Machinery, 2007(3): 38-40. (in Chinese)
[28]何勇, 刘飞, 聂鹏程. 数字农业与农业物联网技术. 现代农机, 2012 (1):8-10.
He Y, Liu F, Nie P C. The technology of digital agriculture and agricultural internet of things. Modern Farm Machinery, 2012(1): 8-10. (in Chinese)
[29]梅旭荣, 刘荣乐. 中国农业环境. 北京: 科学出版社. 2011.
Mei X R, Liu R L. Chinese Agriculture Environment. Beijing: Science Press. 2011. ( in Chinese)
[30]刘建强. 对新时期如何提高农产品质量安全的几点思考. 新农村, 2012 (7): 265-266.
Liu J Q. In new period, how to improve the quality of agricultural products safety considerations. New Countryside, 2012 (7): 265-266. (in Chinese)
[31]新型高效农业生物药物载体与新制剂创制. (2011-06-16) [2012-10-01] http://www.nongjx.com/news/detail/20064.html..
Creating new high efficient agricultural biological drug carrier and preparations. (2011-06-16)[2012-10-01] http://www.nongjx.com/ news/detail/20064.html. (in Chinese) |