基本情况

王开运，博士，华东师范大学教授/博导。主持了由欧盟环境委员会、芬兰科学院、芬兰科技局、北欧协会、中国科学院、国家基金委、国家科技部、上海市科委资助的重大(重点)研究项目18项。主持的“百人计划”项目在科学院27个同类项目结题评估中排名第四；主持的中芬（由中国国家基金委国际合作局和芬兰科学院联合资助）重大国际合作项目，国家基金委“西部生态与环境重大研究计划”、“全球变化与区域响应重大研究计划”、国家“十二、五”重大支撑项目等项目，在研究方法和系统分析方面被专家普遍认为有重要创新。1992至2005年先后在芬兰科学院、英国爱丁堡大学生态管理研究所、瑞典农业大学环境科学系以及德国柏林技术大学生态研究所工作，1999至2004在中国科学院成都生物研究所创新基地研究员（百人计划），2004至今，华东师范大学生态学终身教授，上海市城市化生态过程和生态恢复重点实验室主任,2008至2013，芬兰科学院、芬兰科技局特聘杰出教授。

研究领域

植被生态系统的过程模拟；植物对全球变化和其它生源要素的多尺度响应；生态系统能、水和碳通量的微气象测定

教育背景

Master’s Degree (1982), Northwest Agricultural University (China)

Doctoral Degree (1997), University of Joensuu (Finland)

荣誉奖励

1. Expert Subsidy of the State Council, designated by the State Council, China in 2007.(国务院政府特殊津贴)
2. Chief Scientist in Ecology, designated by the Shanghai Municipal Government, China in 2006.（上海市优秀学科带头人）
3. National Talent in the New Millennia, designated by the Ministry of National Personnel, Ministry of Education, Ministry of Science and Technology, and National Nature Science Foundation of China in 2004.（国家人事部、教育部等七部委“首批新世纪百千万人才工程国家级人选”）
4. Expert with a brilliant contribution, designated by the Government of Sichuan Province, China in 2003.（四川省有突出贡献的优秀专家）

论文发表

1. Qiao, Y.-Z., Wang, K.-Y., Yeping. Wang, Y.-P., X. Yan, Li, Q.-C. 2007. A new viewpoint to understand the response of leaf Dark Respiration (Rd) to elevated CO2. Photosynthetica 45(4): 510~514
2. Zhang, Y.-B., Wang, K.-Y., & Li, C.-Y. (in press). 2008. Leaf photosynthesis of Betula albosinensis seedlings as affected by elevated CO2 and planting density. Forest Ecology and Management 255:1937-1944
3. Qiao, Y.-Z., Wang, K.-Y., Wang, Q. & Tian Q.-Z. 2008. Growth and Wood/Bark Properties of Abies faxoniana Seedlings as Affected by Elevated CO2. Journal of Integrative Plant Biology 50(3):25-36
4. WU, F.-Z, Wang, K.-Y., Wu, Ning, Lu, Y.-J. 2009. Effect of stem density on leaf nutrient dynamics and nutrient use efficiency of dwarf Bamboo. Pedosphere 19(4),496-504
5. Repo, T., Leinonen, I., Wang, K.-Y. & Hänninen, H. 2008. Relation between photosynthetic capacity and cold hardiness in Scots pine. Physiologia Plantarum 126(2):224-231
6. Zha, T.-S., Wang, K.-Y., Kellomäki, S., & Barr, A. G. 2007. Total and component carbon fluxes of a scots pine ecosystem from chamber measurements and eddy covariance. Annals of Botany 266:1-9
7. Wang, K.-Y., Kellomäki, S., Zha, T.-S., & Peltola, H. 2004. Component carbon fluxes and their contribution to ecosystem carbon exchange in a pine forest: an assessment based on eddy covariance measurements and an integrated model. Tree Physiology 24:19-34
8. Wang, K.-Y. Kellomäki, S., Zha, T.-S. & Peltola, H. 2004. Seasonal variation of energy and water fluxes in a pine forest: an assessment based on eddy covariance measurements and an integrated model. Ecological Modelling 179: 259-279
9. Zha, T.-S., Kellomäki, S., Wang, K.-Y., & Ismo, R. 2004. Carbon sequestration and ecosystem respiration for 2 years in a pine forest. Global Change Biology 10: 1492-1503
10. ang, K.-Y., Kellomäki, S., Li, C., & Zha, T.-S. 2003. Light and water-use efficiencies of pine seedlings exposed to elevated carbon dioxide and temperature. Annals of Botany 92: 53-64
11. ang, K.-Y., Liu X., Peng S. 2006. Simulation of the biomass dynamics of Masson pine forest under different management. Journal of Forestry Research 17(4): 305-311
12. ng, K.-Y., Kellomaki, S., Zha, T.-Y., & Peltola, H. 2005. Seasonal variation of sap flow and conductance of pine trees grown in elevated carbon dioxide and temperature. Journal of Experimental Botany 56: 155-165
13. a, T.-S., Wang, K.-Y., Ryyppö, A., & Kellomäki, S. 2002. Needle dark respiration in relation to within-crown position in Scots pine trees grown in long-term elevation of CO2 concentration and temperature. New Phytologist 156: 33-42
14. ng, K.-Y. Kellomaki, S. & Yang, W.-Q. 2004. Effects of elevated atmospheric CO2 and temperature on coniferous forest and perspectives to study on the subalpine coniferous forest in Western Sichuan. World Sci-Tech R & D 26 (2): 55-63
15. ng, K.-Y., Qi Z.-M. & Yang, W.-Q. 2004. Biochemical property of organic matter layer in the arrow bamboo community at the subalpine of Western Sichuan. Acta Ecologica Sinica 24(6): 1230-1236
16. ng, K.-Y., Zha, T.-S., & Kellomäki, S. 2002. Measuring and simulating crown respiration of Scots pine with increased temperature and carbon dioxide enrichment. Annals of botany 90: 325-335
17. Wang, K.-Y., Kellomäki, S., Li, C., & Zha, T.-S. 2003. Light- and water-use efficiencies of Scots pine shoots exposed to elevated carbon dioxide and temperature. Annals of Botany. 92: 53-64
18. Wang, K.-Y., Kellomäki, S., & Zha, T.-S. 2003. Modification in photosynthetic pigments and chlorophyll fluorescence in 20-year-old pine trees after a four-year exposure to carbon dioxide and temperature elevation. Photosynthtica 41(2): 167-175
19. Wang, K.-Y. Qiao, Y.-Z. & Zhang,Y.-B. 2003. Woody plants respond to interactions between elevated CO2 and increased temperature. Acta Phytoecologica Sinica 27(3): 304-310
20. Li, C. & Wang, K.-Y. 2003. Differences in drought responses of three contrasting Eucalyptus microtheca F. Muell. populations. Forest Ecology and Management 179: 377-385