[1]Evaluation of Aphis glycines as an Alternative Host for Supporting Aphelinus albipodus Against Myzus persicae on Capsicum annuum cv. Ox Horn and Hejiao 13. Song, Y. Q.,Sun, H. Z.,Wang, X. D.,Du, J.,Cheng, Z. J..

[2]Crop productivity and nutrient use efficiency as affected by long-term fertilisation in North China Plain. Wang, Yingchun,Wang, Enli,Smith, Chris J.,Wang, Yingchun,Huang, Shaomin,Wang, Daolong,Ma, Yibing,Wang, Ligang.

[3]UPLC-QTOF analysis reveals metabolomic changes in the flag leaf of wheat (Triticum aestivum L.) under low-nitrogen stress. Zhang, Yang,Ma, Xin-ming,Guo, Xiao-yang,Xiong, Shu-ping,Wang, Xiao-chun,Liu, Ji-hong,Huang, Bing-yan,La, Gui-xiao.

[4]Progress in improving stem lodging resistance of Chinese wheat cultivars. Zhang, Yu,Zhang, Yu,Xu, Weigang,Wang, Huiwei,Fang, Yuhui,Dong, Haibin,Qi, Xueli.

[5]Progress in genetic improvement of grain yield and related physiological traits of Chinese wheat in Henan Province. Zhang, Yu,Zhang, Yu,Xu, Weigang,Wang, Huiwei,Dong, Haibin,Qi, Xueli,Zhao, Mingzhong,Fang, Yuhui,Gao, Chong,Hu, Lin.

[6]Examining view angle effects on leaf N estimation in wheat using field reflectance spectroscopy. Song, Xiao,Feng, Wei,He, Li,Zhang, Hai-Yan,Li, Xiao,Wang, Chen-Yang,Guo, Tian-Cai,Song, Xiao,Xu, Duanyang,Wang, Zhi-Jie,Coburn, Craig A..

[7]Physiological characteristics and metabolomics of transgenic wheat containing the maize C-4 phosphoenolpyruvate carboxylase (PEPC) gene under high temperature stress. Qi, Xueli,Qi, Xueli,Xu, Weigang,Zhang, Jianzhou,Guo, Rui,Zhao, Mingzhong,Hu, Lin,Wang, Huiwei,Dong, Haibin,Li, Yan.

[8]Predicting grain yield and protein content in wheat by fusing multi-sensor and multi-temporal remote-sensing images. Wang, Laigang,Tian, Yongchao,Yao, Xia,Zhu, Yan,Cao, Weixing,Wang, Laigang.

[9]Effects of the maize C-4 phosphoenolpyruvate carboxylase (ZmPEPC) gene on nitrogen assimilation in transgenic wheat. Peng, Chaojun,Xu, Weigang,Peng, Chaojun,Xu, Weigang,Hu, Lin,Li, Yan,Qi, Xueli,Wang, Huiwei,Hua, Xia,Zhao, Mingzhong. 2018

[10]Smash-ridging tillage increases wheat yield and yield components in the Huai-He valley, China. Huang, Shao-min,Zhang, Shui-qing,Zhang, Yu-ting,Egrinya, Eneji A.,Zhang, Qiao-ping,Wei, Ben-hui. 2013

[11]Preliminary Study on the Physiological Characteristics of Transgenic Wheat with Maize C-4-pepc Gene in Field Conditions. Han, L. L.,Han, L. L.,Xu, W. G.,Hu, L.,Li, Y.,Qi, X. L.,Zhang, J. H.,Zhang, H. F.,Wang, Y. X.. 2014

[12]Modelling and predicting crop yield, soil carbon and nitrogen stocks under climate change scenarios with fertiliser management in the North China Plain. Zhang, Xubo,Xu, Minggang,Sun, Nan,Zhang, Xubo,Wu, Lianhai,Xiong, Wei,Huang, Shaomin.

[13]Analysis of differential transcriptional profiling in wheat infected by Blumeria graminis f. sp tritici using GeneChip. Wang, Jun-Mei,Liu, Hong-Yan,Wang, Jun-Mei,Liu, Hong-Yan,Xu, Hong-Ming,Li, Min,Wang, Jun-Mei,Liu, Hong-Yan,Kang, Zhen-Sheng,Kang, Zhen-Sheng,Kang, Zhen-Sheng. 2012

[14]Genome-wide identification and functional prediction of novel and fungi-responsive lincRNAs in Triticum aestivum. Zhang, Hong,Hu, Weiguo,Hao, Jilei,Lv, Shikai,Wang, Changyou,Tong, Wei,Wang, Yajuan,Wang, Yanzhen,Liu, Xinlun,Ji, Wanquan,Hu, Weiguo. 2016