[1]王连铮,孙君明,王岚,等.广适高产高蛋白大豆品种中黄13的选育与应用[J].大豆科学,2019,38(01):1-6.[doi:10.11861/j.issn.1000-9841.2019.01.0001]
 WANG Lian-zheng,SUN Jun-ming,WANG Lan,et al.Breeding and Application of Soybean Cultivar Zhonghuang 13 with Wide Adaptability, High Yield and High Protein Content Traits[J].Soybean Science,2019,38(01):1-6.[doi:10.11861/j.issn.1000-9841.2019.01.0001]
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广适高产高蛋白大豆品种中黄13的选育与应用

参考文献/References:

[1]王连铮, 孙君明, 王岚, 等. 大豆育种的研究进展 [J]. 大豆科技与产业化, 2015(1):1-11.(Wang L Z, Sun J M, Wang L, et al. Study progress of soybean breeding [J]. Soybean Sci-Tech and Industrialization, 2015(1):1-11.)
[2]王连铮, 孙君明, 王岚, 等. 大豆超高产育种和栽培研究进展[J]. 大豆科技与产业化, 2017(1):1-5. (Wang L Z, Sun J M, Wang L, et al. Study progress of soybean super-high yield and cultivation [J]. Soybean Sci-Tech and Industrialization, 2017(1):1-5.)
[3]蒋建科. 我国首次向国外申请植物新品种权,大豆新品种“中黄13”取得韩国官方受理通知书并被批准[N].人民日报, 2005-7-15(11). (Jiang J K. China has applied for the right of new plant varieties for the first time from abroad. The new soybean variety Zhonghuang 13 has obtained the official acceptance notice from South Korea and has been approved[N]. People’s Daily News, 2005-7-15(11).)
[4]孙君明. 中黄13的选育和应用获得国家科技进步一等奖[J]. 大豆科学,2013, 32(2): 215.(Sun J M. Breeding and application of soybean cultivar Zhonghuang 13 won a national prize award of Sci & Tech progress [J]. Soybean Science, 2013, 32(2): 215.)
[5]2012年度国家科学技术奖励公报[M]. 北京:国家科技奖励办公室,2012:78. (2012 National scientific award communique [M]. Beijing: National Scienctific Reward Office,2012: 78.)
[6]孙君明. 大豆高产育种和栽培取得突破[J]. 大豆科技与产业化,2010(4):43-45. (Sun J M. Breakthrough in soybean breeding for high yield and cultivation [J]. Soybean Sci-Tech and Industrialization, 2010(4):43-45.)
[7]王连铮, 王金陵. 大豆遗传育种学[M]. 北京:科学出版社, 1992. (Wang L Z , Wang J L. Soybean genetic and breeding [M]. Beijing: Science Press, 1992.)
[8]王连铮, 郭庆元. 现代中国大豆[M]. 北京:金盾出版社, 2007. (Wang L Z,Guo Q Y. Modern Chinese soybean [M]. Beijing: Jindun Press, 2007.)
[9]王连铮. 大豆研究50年[M]. 北京:中国农业科技出版社, 2010. (Wang L Z. Fifty years of soybean research [M]. Beijing: China Agricultural Science and Technology Press, 2010.)
[10]Wang L Z, Sun J M, Wang L, et al. Soybean in China [M]// Ernane Lemes, Leonardo Castro, Rafael Assis. Diseases of Soybean Genetic Improvement and Management Techniques. Brazil: Millennium Ed. Ltd, 2015: 325-348.
[11]Zhang Q, Li H, Li R, et al. Association of the circadian rhythmic expression of GmCRY1a with a latitudinal cline in photoperiodic flowering of soybean [J]. Proceedings of the National Academy of Sciences, 2008, 105 (52): 21028-21033.
[12]Shen Y, Liu J, Geng H, et al. De novo assembly of a Chinese soybean genome [J]. Science of China, Life Science, 2018, 61: 871-884.
[13]蒋建科.大豆超高产育种获重大突破,新品种最高亩产突破312公斤[N].人民日报, 2004. (Jiang J K. A great breakthrough of soybean super-high yield breeding, soybean yield is over 4.68 tons per hectare in China[N]. People’s Daily News, 2004.)
[14]邱家训. 2004年“中黄13”在山西襄垣创亩产312公斤的高产 [J]. 大豆科技与产业化, 2013(1): 23. (Qiu J X. In 2004, ‘Zhong Huang 13’ produced a high yield of 312 kilograms per mu in Xiangyuan, Shanxi province[J]. Soybean Sci-Tech and Industrialization, 2013(1):23.)
[15]邱家训. 2005年“中黄13”在山西襄垣创亩产305.6公斤的高产 [J]. 大豆科技与产业化, 2013(1):24. (Qiu J X. In 2005, ‘Zhong Huang 13’ produced a high yield of 305.6 kilograms per mu in Xiangyuan, Shanxi province [J]. Soybean Sci-Tech and Industrialization, 2013(1):24.)
[16]王岚, 孙君明, 赵荣娟, 等. 大豆超高产品种选育研究进展 [J]. 大豆科学, 2013, 32(5):687-693. (Wang L, Sun J M, Zhao R J, et al. Advances in soybean breeding for super high-yielding [J]. Soybean Science, 2013, 32(5): 687-693.)
[17]王连铮, 罗赓彤, 王岚, 等. 北疆春大豆中黄35公顷产量超6吨的栽培技术创建 [J]. 大豆科学, 2012, 31(2): 217-223. (Wang L Z, Luo G T, Wang L, et al. Development of soybean cultivation technology with the yield over 6 tons per hectare for soybean cultivar Zhonghuang 35 in Northern Xinjiang province [J]. Soybean Science, 2012, 31(2): 217-223.)
[18]孙君明. 2010年中黄35在新疆148团再创全国大豆高产记录 [J]. 大豆科技与产业化, 2011(1):56-57. (Sun J M. In 2010, Zhonghuang 35 established the national soybean production record in the 148 regiment of Xinjiang [J]. Soybean Sci-Tech and Industrialization, 2011(1):1-11.)
[19]王连铮. 如何振兴中国大豆[N].人民日报, 2004-2-13. (Wang L Z. How to revitalize Chinese soybean industry[N]. People’s Daily News, 2004-2-13.)
[20]王连铮. 中国及世界大豆生产科研现状及展望[M]// 中国大豆产业发展研究. 北京:中国商业出版社,2003:1-25.(Wang L Z. Current situation and prospect of soybean production and scientific research in China and the world [M]// Research on the development of China′s soybean industry. Beijing: China Commercial Press, 2003: 1-25.)
[21]王连铮. 发展高产优质高效大豆生产以提高人民生活水平, 建设高产优质高效农业 [M]. 北京:中国农业出版社, 1994:117-119.(Wang L Z. Developing high yield, high quality and high efficiency soybean production to raise people′s living standard and build high yield, high quality and high efficiency agriculture [M]. Beijing: China Agriculture Press, 1994:117-119.)

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备注/Memo

收稿日期:2018-09-03

基金项目:国家科技支撑计划(2014BAD11B01-X02);北京市科技计划项目(Z16110000916005);中国农业科学院科技创新工程(2060302-2-18)。
第一作者简介:王连铮(1930-2018),男,博士,研究员,主要从事大豆遗传育种与高产栽培研究。E-mail: wanglianzheng@caas.cn。
通讯作者:孙君明(1972-),男,博士,研究员,主要从事大豆遗传育种研究。E-mail:sunjunming@caas.cn。

更新日期/Last Update: 2019-01-22