[1]Morphological and yield responses of winter wheat (Triticum aestivum L.) to raised bed planting in Northern China. Wang, Fahong,Kong, Ling'an,Li, Shengdong,Si, Jisheng,Feng, Bo,Zhang, Bin,Wang, Fahong,Sayre, Ken. 2011

[2]Effects of different planting patterns on water use and yield performance of winter wheat in the Huang-Huai-Hai plain of China. Zhang, Jiyang,Sun, Jingsheng,Duan, Aiwang,Wang, Jinglei,Shen, Xiaojun,Liu, Xiaofei.

[3]Gibberellins regulate the stem elongation rate without affecting the mature plant height of a quick development mutant of winter wheat (Triticum aestivum L.). Zhang, Ning,Xie, Yong-Dun,Guo, Hui Jun,Zhao, Lin-Shu,Xiong, Hong-Chun,Gu, Jia-Yu,Li, Jun-Hui,Zhao, Zi-Wei,Zhao, Shi-Rong,Liu, Lu-Xiang,Kong, Fu-Quan,Sui, Li.

[4]Estimating on-farm wheat yield response to potassium and potassium uptake requirement in China. Zhan, Ai,Zou, Chunqin,Cui, Zhenling,Chen, Xinping,Ye, Youliang,Liu, Zhaohui.

[5]Characterisation of high- and low-molecular-weight glutenin subunit genes in Chinese winter wheat cultivars and advanced lines using allele-specific markers and SDS-PAGE. Yang, F. P.,Wang, L. H.,Wang, J. W.,He, X. Y.,Xia, X. C.,He, Z. H.,Yang, F. P.,Yang, W. X.,Wang, J. W.,Zhang, X. K.,Shang, X. W.,He, Z. H..

[6]EFFECT OF EARLY-STAGE REGULATED DEFICIT IRRIGATION ON STEM LODGING RESISTANCE, LEAF PHOTOSYNTHESIS, ROOT RESPIRATION AND YIELD STABILITY OF WINTER WHEAT UNDER POST-ANTHESIS WATER STRESS CONDITIONS. Ma, Shou-Chen,Ma, Shou-Chen,Duan, Ai-Wang,Ma, Shou-Tian,Yang, Shen-Jiao,Ma, Shou-Chen.

[7]Nitrogen use by winter wheat and changes in soil nitrate nitrogen levels with supplemental irrigation based on measurement of moisture content in various soil layers. Guo, Zengjiang,Zhang, Yongli,Shi, Yu,Yu, Zhenwen,Zhao, Junye.

[8]Contribution of green manure legumes to nitrogen dynamics in traditional winter wheat cropping system in the Loess Plateau of China. Zhang Dabin,Yao Pengwei,Zhao Na,Gao Yajun,Yu Changwei,Cao Weidong,Gao Yajun.

[9]EFFECTS OF REGULATED DEFICIT IRRIGATION ON GRAIN YIELD AND QUALITY TRAITS IN WINTER WHEAT. Meng, Zhaojiang,Duan, Aiwang,Gao, Yao,Wang, Xiaosen,Shen, Xiaojun,Dassanayake, Kithsiri Bandara,Chen, Deli.

[10]Evaluation of nitrogen fate, water and nitrogen use efficiencies of winter wheat in North China Plain based on model approach. Jin, Liang,Hu, Kelin,Li, Baoguo,Jin, Liang,Wei, Dan,Deelstra, Johannes,Wang, Huanyuan.

[11]Responses of glutamine synthetase activity and gene expression to nitrogen levels in winter wheat cultivars with different grain protein content. Zhang, Meiwei,Ma, Dongyun,Ma, Geng,Wang, Chenyang,Xie, Xudong,Kang, Guozhang,Zhang, Meiwei.

[12]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.

[13]Nitrogen Status Estimation of Winter Wheat by Using an IKONOS Satellite Image in the North China Plain. Yu, Zihui,Li, Fei,Miao, Yuxin,Chen, Xinping,Zhang, Fusuo,Jia, Liangliang,Gnyp, Martin,Koppe, Wolfgang,Bareth, Georg. 2012

[14]Discriminating Wheat Aphid Damage Degree Using 2-Dimensional Feature Space Derived from Landsat 5 TM. Luo, Juhua,Zhao, Chunjiang,Huang, Wenjiang,Zhang, Jingcheng,Zhao, Jinling,Dong, Yingying,Yuan, Lin,Luo, Juhua,Du, Shizhou.

[15]Extracting Winter Wheat Planting Area Based on Cropping System with Remote Sensing. Li, Shaokun,Zhu, Zhenlin,Sui, Xueyan,Zhang, Xiaodong,Zhu, Zhenlin,Sun, Xiaoqing,Li, Shaokun. 2011

[16]Leaf Area Index Estimation Using Vegetation Indices Derived From Airborne Hyperspectral Images in Winter Wheat. Xie, Qiaoyun,Huang, Wenjiang,Liang, Dong,Huang, Linsheng,Zhang, Dongyan,Chen, Pengfei,Wu, Chaoyang,Yang, Guijun,Zhang, Jingcheng. 2014

[17]Forecasting of Powdery Mildew disease with multi-sources of remote sensing information. Zhang, Jingcheng,Yuan, Lin,Nie, Chenwei,Wei, Liguang,Yang, Guijun,Zhang, Jingcheng,Yang, Guijun,Zhang, Jingcheng,Yang, Guijun,Zhang, Jingcheng,Yuan, Lin. 2014

[18]PREDICTING WHEAT APHID USING 2-DIMENSIONAL FEATURE SPACE BASED ON MULTI-TEMPORAL LANDSAT TM. Huang Wenjiang,Zhao Jinling,Zhang Jingcheng,Ma Zhihong,Luo Juhua. 2011

[19]Global sensitivity analysis of the AquaCrop model for winter wheat under different water treatments based on the extended Fourier amplitude sensitivity test. Xing Hui-min,Chen Yi-jin,Xing Hui-min,Xu Xin-gang,Li Zhen-hai,Feng Hai-kuan,Yang Gui-jun,Chen Zhao-xia,Xing Hui-min,Xu Xin-gang,Li Zhen-hai,Feng Hai-kuan,Yang Gui-jun,Chen Zhao-xia,Xing Hui-min,Xu Xin-gang,Li Zhen-hai,Feng Hai-kuan,Yang Gui-jun,Chen Zhao-xia. 2017

[20]The Study of Winter Wheat Biomass Estimation Model Based on Hyperspectral Remote Sensing. Teng, Xiaowei,Dong, Yansheng,Teng, Xiaowei,Dong, Yansheng,Teng, Xiaowei,Dong, Yansheng,Teng, Xiaowei,Dong, Yansheng,Teng, Xiaowei,Meng, Lumin. 2016