赵刚

基本信息

    赵刚，研究员，博士生导师，国家级高技术人才，专注于全球变化、深度学习模型（时间序列、视觉和语言）、作物模型、作物表型、智慧农业技术的研究与应用。

工作经历

2024.06-至今 西北农林科技大学 研究员

2021.03-2024.06 巴斯夫数字农业 高级技术总监

2018.7-2021.02 巴斯夫数字农业 高级技术主管

2016.2-2018.6 拜耳作物科学 技术主管

2013.6-2016.1 波恩大学 博士后 

荣誉获奖

中国科学院院长优秀奖，中国科学院地奥二等奖

科学研究

从事水稻、小麦、玉米、葡萄、苹果等主要作物的表型监测、作物生长模型构建、病虫害与杂草防治模型、农业大数据管理及气候变化对农业的影响评估等方向研究。迄今在Global Change Biology、Agricultural and Forest Meteorology、Plant Phenomics、Pest Management Science、European Journal of Agronomy等国际知名期刊发表了30余篇SCI论文，转化10余项智慧农业相关的国际发明专利。

代表性论文：

1.Zhao, G.,* H. Hoffmann, S.Xenia, C. Nendel,E. Coucheney,M. Kuhnert, F. Tao,J. Constantin,H. Raynal, E.Teixeira, B. Grosz, L. Doro, R. Kiese, H.Eckersten, E. Haas, D. Cammarano, B. Kassie, M. Moriondo, G. Trombi, M. Bindi, C.Biernath, F. Heinlein, C. Klein, E. Priesack, E. Lewan, K.-C. Kersebaum, R. Rötter, P. P. Roggero, D. Wallach, S. Asseng, S. Siebert, T. Gaiser and F. Ewert, 2016. Evaluating the precision of eight spatial sampling schemes in estimating regional means of simulated yield for two crops. Environmental Modelling & Software, 80, 100-112.

2.Zhao,G.*,Webber,H.,Hoffmann,H.,Wolf,J.,Siebert,S.,Ewert,F.,2015. The implication of irrigation in climate change impact assessment: a European wide study. Global Change Biology,21,4031-4048.

3.Zhao,G. *,Siebert,S.,Enders,A.,Rezaei,E.E.,Yan,C. & Ewert,F.,2015.,Demand for multi-scale weather data for regional crop modeling. Agricultural and Forest Meteorology,200,156-171.

4.Zhao,G.,* B.A. Bryan,D. King,Z. Luo,E. Wang,Q. Yu,2015. Sustainable limits to crop residue harvest for bioenergy: maintaining soil carbon in Australia's agricultural lands. GCB Bioenergy 7,479-487.

5.Zhao, G., H. Hoffmann, S. Xenia, C. Nendel, E. Coucheney, M. Kuhnert, F. Tao, J. Constantin, H. Raynal, E. Teixeira, B. Grosz, L. Doro, R. Kiese, H. Eckersten, E. Haas, D. Cammarano, B. Kassie, M. Moriondo, G. Trombi, M. Bindi, C. Biernath, F. Heinlein, C. Klein, E. Priesack, E. Lewan, K.-C. Kersebaum, R. Rötter, P. P. Roggero, D. Wallach, S. Asseng, S. Siebert, T. Gaiser and F. Ewert, 2016. Evaluating the precision of eight spatial sampling schemes in estimating regional means of simulated yield for two crops. Environmental Modelling & Software, 80, 100-112.

6.Zhao, G., Hoffmann, H., Bussel, L.v., Enders, A., Specka, X., Sosa, C., Yeluripati, J., Tao, F., Constantin, J., Raynal, H., Teixeira, E., Grosz, B., Doro, L., Zhao, Z., Vanuytrecht, E., Nendel, C., Kiese, R., Klatt, S., Haas, E., Kersebaum, K.-C., Kuhnert, M., Wang, E., Trombi, G., Bindi, M., Lewan, E., Eckersten, H., Bach, M., Roggero, P.P., Rötter, R., Wallach, D., Cammarano, D., Asseng, S., Krauss, G., Siebert, S., Gaiser, T., Ewert, F., 2015. Effect of weather data aggregation on regional crop simulations for different crops, production conditions, and response variables. Climate Research 65, 141-157.

 7.Zhao, G. *, Bryan B.A., King, D, Luo, Z, Wang E, Song X, Yu Q. 2013. Impact of agricultural management practices on soil organic carbon: simulation of Australian wheat systems. Global Change Biology, 19, 1585-1597.

8.Ewert F, van Bussel LGJ, Zhao G, Hoffmann H, Gaiser T, Specka X, Nendel C, Kersebaum K-C, Sosa C, Lewan E, Yeluripati J, Kuhnert M, Tao F, Rötter RP, Constantin J, Raynal H, Wallach D, Teixeira E, Grosz B, Bach M, Doro L, Roggero PP, Zhao Z, Wang E, Kiese R, Haas E, Eckersten H, Trombi G, Bindi M, Klein C, Biernath C, Heinlein F, Priesack E, Cammarano D, Asseng S, Elliott J, Glotter M, Basso B, Baigorria GA, Romero CC, Moriondo M., 2015. Uncertainties in Scaling-up Crop Models for Large-Area Climate Change Impact Assessments. In C. Rosenzweig.