Born in August, 1964, from Zhongyang County, Shanxi Province. 1986 Graduated from Shanxi Agricultural University, majoring in agronomy, and received a doctorate in agronomy in 2002. In the same year, he was promoted to be a professor, a doctoral program in crop science and the main backbone of the academic team of the post-doctoral mobile station in crop science. In 2005, he was hired as a doctoral supervisor of crop science by Shanxi Agricultural University. Member of wheat expert guidance group of Ministry of Agriculture, member of Shanxi wheat expert guidance group, expert of Shanxi wheat industrial system, expert of Shanxi agricultural science 1 10, expert of Shanxi science and technology household project, executive director and deputy secretary-general of Western Crop Society, and six representatives of Shanxi Association for Science and Technology. From June 5438+ 10, 2007 to June 5438+ 10, 2008, he visited the Canadian Ministry of Agriculture and Food for one year, and now he is the vice president of the Graduate School of Shanxi Agricultural University.

Second, Li Graduate School of Chinese Academy of Agricultural Sciences

Male, doctor, researcher,/kloc-0 was born in Shihezi city, Xinjiang in February, 1963, and/kloc-0 received the doctor's degree in agriculture from China Agricultural University in July, 1996. 1998 10 left the postdoctoral station of Shandong Agricultural University. Professor was promoted from 65438 to 0997, and now he is a researcher and doctoral supervisor at the Institute of Crop Science, Chinese Academy of Agricultural Sciences. He is also the chief expert of corn science and technology in China, the deputy head of national corn cultivation group, and the executive director of China Computer Agriculture Application Society. Long-term engaged in crop physiological ecology and cultivation information technology research. He has published more than 0/00 papers and 5 monographs, won national teaching achievement awards 1 item, 8 provincial and ministerial achievement awards, and trained 32 doctoral students 13 and master students.

Now he is in charge of many topics of 863 digital agriculture. Main research contents:

1. Using hyperspectral remote sensing and machine vision technology, we will carry out monitoring research on planting information of major crops such as cotton and wheat, and develop related expert systems and products.

2. Study on high-yield physiological ecology and technology diffusion of maize.

3. Theory and technology of crop high-yield cultivation under conservation tillage.

Address: Zhongguancun South Street 10008 12, Beijing.

Tel: 010-82108891.

Electronic mail:lishk@mail.caas.net.cn

Dicky Cheung, Graduate School of Chinese Academy of Agricultural Sciences.

Male, born in June, 1966, 1 1, a second-class researcher at the Institute of Crop Science, Chinese Academy of Agricultural Sciences, an adjunct professor at the Institute of Applied Ecology, Nanjing Agricultural University, and a doctoral supervisor in crop science and ecology. 1999 graduated from Nanjing agricultural university with a doctorate in crop cultivation and farming, majoring in farmland ecology and farming system. 2001-In 2003, he conducted postdoctoral cooperative research at North Carolina State University. In 2006, he was selected into the "Outstanding Talents in the New Century" funding program of the Ministry of Education. He has been engaged in teaching and scientific research in the field of farmland ecology and farming system for many years, focusing on the response and adaptation of farmland ecosystem to global change, farmland ecological health and farming system, the evolution of farming system and regional agricultural development. In recent years, he has presided over more than 20 projects such as National 973 Project, National Natural Science Foundation, National Science and Technology Support Program, Doctoral Program Fund of Ministry of Education and Natural Science Fund of Jiangsu Province, and won the second and third prizes of provincial and ministerial scientific and technological progress. Related research has been published in Global Change Biology, Journal of Environmental Science, China Science C, Science and Technology Herald, China Agricultural Science and so on.

Tel: 0 10-62 156856

E-mail :zhangweij@caas.net.cn (zwj@njau.edu.cn)

Zhao Ming, Graduate School of Chinese Academy of Agricultural Sciences.

Male, doctor, 1955 was born in Guyuan county, Hebei province, 1985- 1 obtained the master's degree and doctor's degree from China Agricultural University, 1992- 1994 worked in the postdoctoral mobile station of China Academy of Agricultural Sciences. Associate Professor and Professor (Doctoral Supervisor) of China Agricultural University is an outstanding young and middle-aged academic backbone crop cultivation and cultivation leader in the "New Century Talent Project". He used to be a special cooperative researcher at the University of Tokyo in Japan and a senior scientist at the International Rice Research Institute. Since 2004, he has been a first-class talent, director of the Department of Crop Cultivation and Physiology, researcher, post scientist of corn industry system, part-time IRRI- China liaison scientist, and editor-in-chief of crop magazine. Member of Science and Technology Committee of Ministry of Agriculture, member of corn expert group, director and deputy secretary general of China Crop Society; Deputy director of the State Crop Cultivation Committee and deputy head of the corn discipline group. Mainly engaged in high-yield and efficient cultivation of crops and physiological research of high photosynthetic efficiency and stress resistance. He presided over more than 20 national key research projects, 973 national projects, 863 national projects and important research projects at the provincial and ministerial levels, and published 50 papers 150 outside domestic core journals, including 3 works and 3 scientific appraisal projects 10, and won national patents 12. Crop physiology and cultivation have made progress in many aspects. (1) Establishment of theoretical model and technical approach for high yield and high efficiency of crops: Based on the internal relations among the three theories of source and sink, yield composition and photosynthetic performance, a "trinity structure" model was put forward, and different approaches for quantitative analysis of yield and high yield were established, achieving a new record of super-high yield of maize; (2) Significant progress was made in crop high photosynthetic efficiency physiology and resource innovation: C4 transgenic plants and high photosynthetic efficiency wild resources were used to create rice plants with high photosynthetic efficiency and stress resistance, and their physiological mechanisms were studied to provide theoretical and material support for improving rice photosynthesis and stress resistance; (3) Developed a batch of farmland eco-physiological monitoring instruments: Based on modern sensors, single-chip computers, hyperspectral physiological and biochemical inversion and other intelligent technologies, developed and is developing a batch of farmland eco-physiological monitoring instruments, established a crop information cultivation technology platform for real-time monitoring and analysis of three crops, and promoted the development of modern cultivation technology.

Address: Zhongguancun South Street 10008 12, Beijing.

Tel: 0 10-82 108752

E-mail: zhaomingcau @163.net.

Verb (abbreviation of verb) Mao Shuchun, Graduate School of Chinese Academy of Agricultural Sciences.

Taking crop cultivation and cultivation as the research direction, he has deep attainments in high-yield cultivation physiology of cotton and double-high-yield cultivation of wheat and cotton. The study revealed that intercropping cotton with low light and low heat and intermittent drought has theoretical value of high quality and high yield cultivation, established cotton quality formation and quality control model, and formulated five sets of technical regulations for wheat and cotton double cropping, which is advanced and practical. Create a new mode of pre-production, mid-production and post-production scientific and technological service for high-quality cotton bases, establish a cotton production boom system in China, and create a cotton production boom index in China, which has aroused social concern. He has won four national, ministerial and academy-level scientific and technological progress awards and two national patents, and edited and published monographs 10, such as Cotton Standardized High-yield Cultivation Techniques, Research on Cotton Sustainable Development in China, New Cotton Cultivation Techniques, Cotton Nutrition and Fertilization and WTO, and China Cotton. He has published more than 60 academic papers in recent five years and enjoys a certain reputation among his peers at home and abroad.

Comrade Mao Shuchun has been engaged in cotton cultivation technology research for a long time, with good professional quality, rigorous academic attitude, strong professionalism, strong sense of innovation, serious and solid work and decent style.

Jin, Graduate School of Chinese Academy of Agricultural Sciences

Male, doctor, currently deputy director of rice technology research and development center of China Rice Research Institute, deputy director and researcher of key open laboratory of crop physiology and cultivation of Ministry of Agriculture, member of cultivation professional committee of China Crop Society, executive director of Zhejiang Crop Society, deputy head of rice production mechanization expert group of Ministry of Agriculture, and honorary scientist of RDA. Since 1988, he has been engaged in scientific research on rice growth and development, rice field ecosystem, rice cultivation technology and physiological and ecological theory in China Rice Research Institute. He has been to Korea, India, Czech Republic, Malaysia and other countries for cooperative research and academic exchanges. Won the provincial and ministerial level scientific and technological progress award 1 item, 2 second prizes, 6 third prizes, 6 provincial and ministerial level agricultural harvest awards, published more than 80 academic papers and edited 3 monographs. Selected as "15 1 talent project" candidate in Zhejiang province.

Preside over and undertake national and ministerial-level scientific and technological key projects, national 948, national and Zhejiang natural science funds and international cooperation projects. The research contents include: rice plant type and physiological and ecological regulation and high photosynthetic efficiency and super-high yield cultivation; Mechanized cultivation theory of rice and supporting production technology of agricultural machinery; Physiological and ecological adaptation mechanism of rice drought resistance and water-saving technology in dry farming: rice planting and breeding complex ecosystem and rice-duck ecological planting and breeding technology.

Contact information:

E-mail :jinqy@mail.hz.zj.cn

Tel: 86-57 1-63370325

Zhu Defeng, Graduate School of Chinese Academy of Agricultural Sciences

Male, doctor, director, researcher and chief expert of rice technology research and development center of China Rice Research Institute. Participated in the research and development of internationally renowned rice growth model represented by ORYZA 1. The model technology and method of rice growth monitoring and yield prediction combined with rice growth, meteorology and spectroscopy were established. Establish aerobic irrigation methods and techniques for rice. Develop the theory and technology of rice intensive cultivation. The plant type, mechanism and integrated technology of super-high yield rice production were put forward. The method and technology of transplanting rice seedlings with bowl-shaped blanket seedling machine were pioneered. A number of rice cultivation techniques developed are listed as the leading technologies in rice production by the Ministry of Agriculture. Published more than 50 papers/kloc-0, edited and published translations 1 and 5 monographs. As the host and main participant, he won the second and third prizes of the National Science and Technology Progress Award1; Provincial and ministerial level scientific and technological progress first prize 1, second prize 3, third prize 2; China Academy of Agricultural Sciences won the first prize of 1 science and technology and two second prizes; And the first prize of national agricultural harvest 1 and other awards. As a rice consultant expert of international organizations such as FAO, he went to major rice-producing countries in Southeast Asia and Europe to guide rice research and production. Now he is mainly engaged in the research of rice physiology and ecology, high-yield mechanism and cultivation, efficient utilization of resources, rice mechanized planting technology and so on.

Address: No.359, Stadium Road, Hangzhou, Postal Code: 3 10006

Tel: 057 1-63370373

E-mail :zhudf@mail.hz.zj.cn.