[1]Hyperspectral Prediction Model for Maize Leaf SPAD in the Whole Growth Period. Chen Zhi-qiang,Wang Lei,Bai You-lu,Yang Li-ping,Lu Yan-li,Wang He,Wang Zhi-yong. 2013

[2]Studying on red edge characteristics of maize leaf using visible/near-infrared imaging hyperspectra. Zhang, Dongyan,Liao, Qinhong,Huang, Linsheng,Zhao, Jinling,Du, Shizhou,Ma, Zhihong. 2011

[3]Winter Wheat GPC Estimation Based on Leaf and Canopy Chlorophyll Parameters. Song Xiao-yu,Yang Gui-jun,Chang Hong,Song Xiao-yu,Wang Ji-hua,Yang Gui-jun,Chang Hong,Wang Ji-hua,Cui Bei. 2014

[4]Differences in maize physiological characteristics, nitrogen accumulation, and yield under different cropping patterns and nitrogen levels. Zhang, Xiangqian,Huang, Guoqin,Zhao, Qiguo. 2014

[5]Changes of photosynthetic characteristics in relation to leaf senescence in two maize hybrids with different senescent appearance. He, P,Osaki, M,Takebe, M,Shinano, T.

[6]Research on Fast Detecting Tomato Seedlings Nitrogen Content Based on NIR Characteristic Spectrum Selection. Wu Jing-zhu,Wang Feng-zhu,Wang Li-li,Zhang Xiao-chao,Mao Wen-hua. 2015

[7]Effect of the Near Infrared Spectrum Resolution on the Nitrogen Content Model in Green Tea. Yang Dan,Liu Xin,Zhang Ying-bin,Yin Peng,Liu Hong-gang. 2013

[8]Determination of Nitrogen in Rapeseed by Fourier Transform Infrared Photoacoustic Spectroscopy and Independent Component Analysis. Lu, Yuzhen,Du, Changwen,Zhou, Jianmin,Yu, Changbing.

[9]Will elevated CO2 enhance mineral bioavailability in wetland ecosystems? Evidence from a rice ecosystem. Zhang, Weijian,Guo, Jia,Guo, Jia,Zhang, Weijian,Zhang, Mingqian,Zhang, Li,Bian, Xinmin.

[10]Chemometrics Method for Real-Time Measurement of Water COD Based on Laser-Induced Breakdown Spectroscopy. Ye Song,Gu Ya-hui,Zhang Wen-tao,Wang Jie-jun,Wang Xin-qiang,Dong Da-ming,Gu Ya-hui,Du Xiao-fan,Dong Da-ming. 2017

[11]Online Measurement of Water COD-A Comparison between Ultraviolet and Near Infrared Spectroscopies. Liu Fei,Dong Da-ming,Zhao Xian-de,Liu Fei,Zheng Pei-chao. 2017

[12]Model of Grey Mean Generating Function and Its Application Pesticide Quantity Prediction. Zhang, Xiu-Hong,Lin, Yong. 2016

[13]Prediction model for mercury transfer from soil to corn grain and its cross-species extrapolation. Hu Hai-yan,Li Zhao-jun,Feng Yao,Liu Yuan-wang,Xue Jian-ming,Davis, Murray,Liang Yong-Chao. 2016

[14]Development of near-infrared reflectance spectroscopy models for quantitative determination of water-soluble carbohydrate content in wheat stem and glume. Wang, Zhenghang,Liu, Xiulin,Chang, Xiaoping,Jing, Ruilian,Wang, Zhenghang,Liu, Xiulin,Li, Runzhi.

[15]Prediction models for transfer of arsenic from soil to corn grain (Zea mays L.). Yang, Hua,Li, Zhaojun,Liang, Yongchao,Yang, Hua,Long, Jian,Xue, Jianming,Davis, Murray,He, Wenxiang.

[16]Soil Moisture and Crop Evapotranspiration Forecast for Winter Wheat Based on Weather Information in North China Plain. Liu, Zhandong,Qin, Anzhen,Duan, Aiwang,Zhang, Jiyang,Sun, Jingsheng,Ning, Dongfeng,Zhao, Ben,Mi, Zhaorong,Liu, Zugui. 2017

[17]Application of Visible/Near-Infrared Spectroscopy in the Prediction of Azodicarbonamide in Wheat Flour. Che, Wenkai,Sun, Laijun,Zhang, Qian,Zhang, Dan,Ye, Dandan,Tan, Wenyi,Wang, Lekai,Dai, Changjun. 2017

[18]Predicting metabolizable energy of normal corn from its chemical composition in adult Pekin ducks. Zhao, F.,Zhang, H. F.,Hou, S. S.,Zhang, Z. Y.. 2008