[1]Coupled Effects of Soil Water and Nutrients on Growth and Yields of Maize Plants in a Semi-Arid Region. Sun Zhan-Xiang,Zheng Jia-Ming,Sun Wen-Tao.

[2]Influence of the system of rice intensification on rice yield and nitrogen and water use efficiency with different N application rates. Zhao, Limei,Wu, Lianghuan,Lu, Xinghua,Zhao, Limei,Li, Yongshan,Zhu, Defeng,Uphoff, Norman.

[3]Nitrogen accumulation, remobilization and partitioning in rice (Oryza sativa L.) under an improved irrigation practice. Lin, XQ,Zhou, WJ,Zhu, DF,Chen, HZ,Zhang, YP. 2006

[4]Identification of QTLs for plant height, ear height and grain yield in maize (Zea mays L.) in response to nitrogen and phosphorus supply. Cai, Hongguang,Chu, Qun,Gu, Riliang,Yuan, Lixing,Liu, Jianchao,Chen, Fanjun,Mi, Guohua,Zhang, Fusuo,Cai, Hongguang,Zhang, Xiuzhi.

[5]Modeling the effects of plant density on maize productivity and water balance in the Loess Plateau of China. Ren, Xinmao,Sun, Dongbao,Wang, Qingsuo.

[6]Accuracy of root modeling and its potential impact on simulation of grain yield of wheat. Zhao, Zhigan,Xue, Lihua,Wu, Yongcheng,Zhang, Jingting,Wang, Zhimin,Zhao, Zhigan,Wang, Enli,Xue, Lihua,Zhang, Jingting. 2013

[7]Value of groundwater used for producing extra grain in North China Plain. Zhao, Zhigan,Qin, Xin,Zhang, Yinghua,Wang, Zhimin,Zhao, Zhigan,Zang, Hecang,Chen, Chao.

[8]A reappraisal of the critical nitrogen concentration of wheat and its implications on crop modeling. Zhao, Zhigan,Wang, Zhimin,Zang, Hecang,Liu, Yunpeng,Zhao, Zhigan,Wang, Enli,Zhao, Zhigan,Wang, Enli,Zang, Hecang,Angus, John F.,Angus, John F..

[9]Accuracy of root modelling and its impact on simulated wheat yield and carbon cycling in soil. Zhao, Zhigan,Xue, Lihua,Wu, Yongcheng,Zang, Hecang,Qin, Xin,Zhang, Jingting,Wang, Zhimin,Zhao, Zhigan,Wang, Enli,Qin, Xin,Xue, Lihua,Zang, Hecang,Zhang, Jingting.

[10]Earthworms enhanced winter oilseed rape (Brassica napus L.) growth and nitrogen uptake. Zhang, Shujie,Chao, Ying,Zhang, Chunlei,Cheng, Jing,Li, Jun,Ma, Ni.

[11]Comparison of greenhouse gas emissions of chemical fertilizer types in China. Zhan-biao Wang,Jing Chen,Shu-chun Mao,Ying-chun Han,Fu Chen,Li-feng Zhang,Ya-bing Li,Cun-dong Li.

[12]Combination of modified nitrogen fertilizers and water saving irrigation can reduce greenhouse gas emissions and increase rice yield. Li, Jianling,Li, Yu'e,Wan, Yunfan,Wang, Bin,Waqas, Muhammad Ahmed,Qin, Xiaobo,Gao, Qingzhu,Wilkes, Andreas,Cai, Weiwei,Guo, Chen,Zhou, Shouhua,Su, Rongsui. 2018

[13]Carbon flow analysis of China's agro-ecosystem from 1980 to 2013: A perspective from substance flow analysis. Liu, Yu,Wang, Can,Wang, Can,Chen, Minpeng.

[14]Greenhouse gas emissions, soil quality, and crop productivity from a mono-rice cultivation system as influenced by fallow season straw management. Liu, Wei,Hussain, Saddam,Wu, Lishu,Qin, Ziguo,Li, Xiaokun,Lu, Jianwei,Khan, Fahad,Geng, Mingjian,Cao, Weidong.

[15]Soil CO2 and N2O Emissions in Maize Growing Season Under Different Fertilizer Regimes in an Upland Red Soil Region of South China. Zhang Xu-bo,Sun Nan,Ding Xue-shan,Wang Bo-ren,Li Dong-chu,Wu Lian-hai,Li Jian-wei. 2014

[16]Biomass and biofuels in China: Toward bioenergy resource potentials and their impacts on the environment. Qin, Zhangcai,Zhuang, Qianlai,Cai, Ximing,He, Yujie,Huang, Yao,He, Yujie,Jiang, Dong,He, Yujie,Jiang, Dong,Lin, Erda,Liu, Yaling,Tang, Ya,Wang, Michael Q.. 2018

[17]Large-scale farming operations are win-win for grain production, soil carbon storage and mitigation of greenhouse gases. Zhu, Yongchang,Waqas, Muhammad Ahmed,Li, Yu'e,Wilkes, Andreas,Qin, Xiaobo,Gao, Qingzhu,Wan, Yunfan,Hasbagan, Ganjurjav,Zou, Xiaoxia,Jiang, Defeng. 2018

[18]Differences in CH4 and N2O emissions between rice nurseries in Chinese major rice cropping areas. Zhang, Yi,Jiang, Yu,Zhang, Mingqian,Zhang, Weijian,Li, Zhijie,Zhang, Xin,Deng, Aixing,Zhang, Weijian,Feng, Jinfei,Chen, Jin. 2014

[19]Coupling life-cycle assessment and the RothC model to estimate the carbon footprint of green manure-based wheat production in China. Yao, Zhiyuan,Zhang, Dabin,Yao, Pengwei,Liu, Na,Zhai, Bingnian,Huang, Donglin,Gao, Yajun,Zhao, Na,Zhang, Suiqi,Li, Yangyang,Cao, Weidong,Zhang, Dabin,Zhai, Bingnian,Huang, Donglin,Gao, Yajun.

[20]Climate Clever Clovers: New Paradigm to Reduce the Environmental Footprint of Ruminants by Breeding Low Methanogenic Forages Utilizing Haplotype Variation. Kaur, Parwinder,Nichols, Phillip,Revell, Clinton,Erskine, William,Kaur, Parwinder,Vercoe, Philip,Durmic, Zoey,Erskine, William,Kaur, Parwinder,Vercoe, Philip,Stefanova, Katia,Durmic, Zoey,Edwards, David,Erskine, William,Kaur, Parwinder,Appels, Rudi,Keeble-Gagnere, Gabriel,Bayer, Philipp E.,Edwards, David,Wang, Jiankang,Hirakawa, Hideki,Shirasawa, Kenta,Isobe, Sachiko N.,Stefanova, Katia,Nichols, Phillip,Revell, Clinton. 2017