[1]Dynamics of root length and distribution and shoot biomass of maize as affected by intercropping with different companion crops and phosphorus application rates. Xia, Hai-Yong,Christie, Peter,Zhang, Fu-Suo,Li, Long,Zhao, Jian-Hua,Sun, Jian-Hao,Bao, Xing-Guo,Christie, Peter.

[2]Wheat/maize or wheat/soybean strip intercropping I. Yield advantage and interspecific interactions on nutrients. Li, L,Sun, JH,Zhang, FS,Li, XL,Yang, SC,Rengel, Z. 2001

[3]Intercropping with wheat leads to greater root weight density and larger below-ground space of irrigated maize at late growth stages. Li, Long,Li, Long,Zhang, Fusuo,Sun, Jianhao. 2011

[4]Contribution of interspecific interactions and phosphorus application to sustainable and productive intercropping systems. Xia, Hai-Yong,Wang, Zhi-Gang,Christie, Peter,Zhang, Fu-Suo,Li, Long,Zhao, Jian-Hua,Sun, Jian-Hao,Bao, Xing-Guo,Xia, Hai-Yong,Christie, Peter.

[5]Genotype and Planting Density Effects on Rooting Traits and Yield in Cotton (Gossypium hirsutum L.). Li-Zhen Zhang,Bao-Guo Li,Gen-Tu Yan,Wopke van der Werf,JHJ Spiertz,Si-Ping Zhang.

[6]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.

[7]High morphological and physiological plasticity of wheat roots is conducive to higher competitive ability of wheat than maize in intercropping systems. Liu, Yi-Xiang,Zhang, Wei-Ping,Li, Xiao-Fei,Christie, Peter,Li, Long,Sun, Jian-Hao.

[8]Crop acquisition of phosphorus, iron and zinc from soil in cereal/legume intercropping systems: a critical review. Xue, Yanfang,Xia, Haiyong,Xia, Haiyong,Zhang, Zheng,Christie, Peter,Li, Long,Tang, Caixian.

[9]Competitive interaction in a jujube tree/wheat agroforestry system in northwest China's Xinjiang Province. Zhang, W.,Wang, B. J.,Gan, Y. W.,Duan, Z. P.,Hao, X. D.,Lv, X.,Li, L. H.,Xu, W. L.. 2017

[10]Interspecific interactions alter root length density, root diameter and specific root length in jujube/wheat agroforestry systems. Wang, B. J.,Zhang, W.,Ahanbieke, P.,Gan, Y. W.,Li, L. H.,Zhang, W.,Christie, P.,Li, L.,Xu, W. L..

[11]Root distribution and interactions in jujube tree/wheat agroforestry system. Zhang, W.,Christie, P.,Li, L.,Zhang, W.,Ahanbieke, P.,Wang, B. J.,Li, L. H.,Xu, W. L.,Christie, P..

[12]Dynamics of soil carbon to nitrogen ratio changes under long-term fertilizer addition in wheat-corn double cropping systems of China. Wang, X. J.,Cong, R. H.,Xu, M. G.,Zhang, W. J.,Xie, L. J.,Wang, B. R.,Cong, R. H.,Wang, X. J.,Huang, S. M..

[13]Light interception and utilization in relay intercrops of wheat and cotton. L. Zhang,W. van der Werf,L. Bastiaans,S. Zhang,B. Li,J.H.J. Spiertz. 2008

[14]Effect of alternative tillage and residue cover on yield and water use efficiency in annual double cropping system in North China Plain. He Jin,Wang Qingjie,Li Hongwen,Gao Huanwen,Liu Lijin.

[15]Neural network modeling of ecosystems: A case study on cabbage growth system. Zhang, Wenjun,Bai, Chanyjun,Liu, GuoDao.

[16]Modeling Nitrate Leaching and Optimizing Water and Nitrogen Management under Irrigated Maize in Desert Oases in Northwestern China. Hu, Kelin,Li, Baoguo,Huang, Yuanfang,Li, Yong,Chen, Deli,Wei, Yongping,Edis, Robert,Chen, Weiping,Zhang, Yuanpei.

[17]Relationship between population competitive intensity and yield in maize cultivars. Zhai Li-chao,Xie Rui-zhi,Li Shao-kun,Fan Pan-pan,Zhai Li-chao. 2017

[18]Simple nonlinear model for the relationship between maize yield and cumulative water amount. Liu Cheng,Yang Xiao-hong,Li Jian-sheng,Liu Cheng,Sun Bao-cheng,Tang Huai-jun,Xie Xiao-qing,Wang Tian-yu,Li Yu,Zhang Deng-feng,Shi Yun-su,Song Yan-chun. 2017

[19]Nitrate Leaching from Maize Intercropping Systems with N Fertilizer Over-Dose. Nie Sheng-wei,Chen Yuan-quan,Sui Peng,Huang Jian-xiong,Nie Sheng-wei,Huang Shao-min,Eneji, A. Egrinya. 2012

[20]Soil Nitrous Oxide Emissions Under Maize-Legume Intercropping System in the North China Plain. Huang Jian-xiong,Chen Yuan-quan,Sui Peng,Nie Sheng-wei,Gao Wang-sheng,Nie Sheng-wei. 2014