[1]Research of Pest Diagnosis System Development Tools Based on Binary Tree. Qiu, Yun,Zhou, Guomin. 2011

[2]Plant Identification Based on Artificial Intelligence. Hou Chun Sheng,Zhou Ting. 2011

[3]Artificial Intelligent Diagnosing Method Based on the Certainty-Speculated Reason of Pivot Factor. Tan Wen Xue,Wu Hua Rui,Tan Wen Xue,Wang Xi Ping. 2014

[4]PRSRW: AN EXPERT SYSTEM FOR POSTULATING AND INFERRING RESISTANCE GENES TO WHEAT STRIPE RUST. Yang, Yu,Wang, Lianzhi,Bian, Qiang,Xu, Shichang,Wang, Fengle. 2009

[5]Tea-expert: A Web-based Expert System for Forecasting of Tea Plant Principal Pests in Southern of China. Gao, Ling-Wang,Wang, Xiao-Qing,Peng, Ping,Li, Jian-Long. 2015

[6]Development of a Non-Pollution Orange Fruit Expert System Software Based on ASP.NET. Hong Li-fang,Li Yi-shan. 2011

[7]An Image-Based Diagnostic Expert System for Corn Diseases. Lai Jun-chen,Ming Bo,Li Shao-kun,Lai Jun-chen,Ming Bo,Li Shao-kun,Wang Ke-ru,Xie Rui-zhi,Gao Shi-ju. 2010

[8]Stochastic processes play more important roles in driving the dynamics of rarer species. Zhang, Ximei,Han, Xingguo,Zhang, Ximei,Pu, Zhichao,Li, Yuanheng,Han, Xingguo. 2016

[9]Temporal variations in PM(10) and particle size distribution during Asian dust storms in Inner Mongolia. Hoffmann, Carsten,Funk, Roger,Sommer, Michael,Li, Yong. 2008

[10]Integration of remote sensing and GIS technology to evaluate grassland ecosystem health in north China. Qin, ZH,Xu, B,Xin, XP,Zhou, QB,Zhang, HO,Li, J. 2004

[11]Differential Responses of Soil Microbial Community to Four-Decade Long Grazing and Cultivation in a Semi-Arid Grassland. He, Yating,Qi, Yuchun,Dong, Yunshe,Liu, Xinchao,Sun, Liangjie,He, Yating,Xu, Minggang,He, Xinhua,Li, Jianwei,He, Yating. 2017

[12]Based on the AMSR-E Grassland Snow Depth Monitoring of the Northern China. Yang, Xiuchun,Xu, Bin,Li, Jinya,Cao, Yungang. 2011

[13]Drivers of soil net nitrogen mineralization in the temperate grasslands in Inner Mongolia, China. Liu, Xing-Ren,Li, Sheng-Gong,Liu, Xing-Ren,Li, Sheng-Gong,Ren, Jian-Qiang,Ren, Jian-Qiang.

[14]Analysis of land use change and its driving force in the Longitudinal Range-Gorge Region. Ll ZhengHai,Song GuoBao,Bao YaJing,Song GuoBao,Lo HaiYan,Ll ZhengHai,Wang HaiMei,Xu Tian,Cheng Yan.

[15]Responses of plant community coverage to simulated warming and nitrogen addition in a desert steppe in Northern China. Wang, Zhen,Zhao, Mengli,Han, Guodong,Wang, Zhen,Li, Yuanheng,Hao, Xiying.

[16]Using Cs-137 to estimate wind erosion and dust deposition on grassland in Inner Mongolia-selection of a reference site and description of the temporal variability. Funk, Roger,Hoffmann, Carsten,Reiche, Matthias,Zhang, Zhuodong,Sommer, Michael,Li, Yong,Zhang, Zhuodong,Li, Junjie,Sommer, Michael.

[17]Identifying sensitive areas to wind erosion in the Xilingele grassland by computational fluid dynamics modelling. Zhang, Zhuodong,Reiche, Matthias,Funk, Roger,Hoffmann, Carsten,Sommer, Michael,Wieland, Ralf,Li, Yong,Sommer, Michael.

[18]Biological and ecological evidences suggest Stipa krylovii (Pooideae), contributes to optimal growth performance and population distribution of the grasshopper Oedaleus asiaticus. Ma, J. C.,Qin, X. H.,Tu, X. B.,Cao, G. C.,Wang, G. J.,Nong, X. Q.,Zhang, Z. H.,Huang, X. B.,Ma, J. C.,Qin, X. H.,Tu, X. B.,Cao, G. C.,Wang, G. J.,Nong, X. Q.,Zhang, Z. H.,McNeill, M. R..

[19]Quantitative Analysis of Plant Consumption and Preference by Oedaleus asiaticus (Acrididae: Oedipodinae) in Changed Plant Communities Consisting of Three Grass Species. Zhang, Z.,McNeill, M..

[20]Management opportunities to mitigate greenhouse gas emissions from Chinese agriculture. Nayak, Dali,Smith, Pete,Saetnan, Eli,Newbold, Jamie,Cheng, Kun,Cheng, Yan-Fen,Zhu, Wei Yun,Pan, Genxing,Wang, Wen,Wang, Wen,Koslowski, Frank,Moran, Dominic,Wang, Jia-Kun,Liu, Jian-Xin,Yan, Xiaoyuan,Cardenas, Laura,Lui, Yuelai.