新平 陈;Zhen Ling Cui;Peter M. Vitousek;Kenneth G. Cassman;Pamela A. Matson;Jin Shun Bai;Qing Feng Meng;Peng Hou;Shan Chao Yue;Volker Römheld;福锁 张
China Agricultural University;Stanford University;University of Nebraska-Lincoln;University of Hohenheim
发表时间:2011-4-19
期 刊:Proceedings of the National Academy of Sciences of the United States of America
语 言:English
U R L: http://www.scopus.com/inward/record.url?scp=79955641171&partnerID=8YFLogxK
China and other rapidly developing economies face the dual challenge of substantially increasing yields of cereal grains while at the same time reducing the very substantial environmental impacts of intensive agriculture. We used a model-driven integrated soil-crop system management approach to develop a maize production system that achieved mean maize yields of 13.0 t ha-1 on 66 on-farm experimental plots-nearly twice the yield of current farmers' practices-with no increase in N fertilizer use. Such integrated soil-crop system management systems represent a priority for agricultural research and implementation, especially in rapidly growing economies.
Scopus度量
年份 | CiteScore | SJR | SNIP |
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1996 | |||
1997 | |||
1998 | |||
1999 | 8.52 | 2.398 | |
2000 | 7.927 | 2.452 | |
2001 | 7.189 | 2.458 | |
2002 | 7.281 | 2.498 | |
2003 | 7.129 | 2.507 | |
2004 | 7.197 | 2.617 | |
2005 | 6.94 | 2.546 | |
2006 | 6.849 | 2.45 | |
2007 | 6.867 | 2.46 | |
2008 | 7.034 | 2.431 | |
2009 | 7.025 | 2.552 | |
2010 | 6.898 | 2.541 | |
2011 | 16.8 | 6.864 | 2.632 |
2012 | 17.3 | 6.868 | 2.679 |
2013 | 17.4 | 7.073 | 2.721 |
2014 | 17.2 | 6.898 | 2.706 |
2015 | 17.8 | 6.814 | 2.664 |
2016 | 18 | 6.576 | 2.648 |
2017 | 17.1 | 6.092 | 2.655 |
2018 | 16.1 | 5.601 | 2.598 |
2019 | 15.7 | 5.165 | 2.689 |
2020 | 16 | ||
2021 |
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