李胜功 ,男,1965年生。中国科学院地理科学与资源研究所研究员,博士生导师。
2001年在日本筑波大学生物学系获理学博士学位。在1989-1997年间,曾在中国科学院沙漠研究所任助来自理研究员和副研究员。在2001-2006年间,曾先立例祖限吸兰弦路径后在美国犹他大学生物学系从事博士后研究工作,日本科学技术振兴机构任项目特别研究员。2005年入选中国科学院"百人计划"。现有在读博士和硕士研究生5名 。
植物生理生态学、群落和生态系统生态学、生物地球化学循环和全球变化等
来自 1)中国科学院 "引进国外杰出人材"("百人计划")项目"基于样带的草地生态系统生物经汽攻列出加史政地球化学过程研究"(主持人, 2008年01月-2010年12月)。
2)中国科学院知识创新工程重要方向项目群"全360百科球气候变化与生态系统"中的"中国森林生态系统固碳潜力及其增汇技术分析"项目(KZCX2-YW-Q1-05) (课题负责人, 2009年01月-2011年12月)。
3)中国国家自然科学基金会(NSFC)、日本学术振兴会(JSPS)和韩国科学与工程基金会(KOSEF)三国共抗积打金同发起的2007年设度中日韩A3前瞻计划项目(Asia 3 Foresight Program)"CarbonEastAsia:基于通量观测网络的生态系统碳循环过程与模型综合研究" (专课题负责人, 20某07年08月-2010年07月)。
已发表学术论文80多篇,其中SCI收录30篇,参加编辑出版专著4部。
1)Yu G.-R., L.-M. Zhang, X.-M. Sun, Y.-L. Fu, X.-F. Wen, Q.-F. Wang, S.-G. Li, C.-Y. Ren, X. Song, Y.-F. Liu, S.-J. Han, J.-H. Yan. 2008. Environmental contr推存升余千百ols over carbon exchange of three forest ecos点火ystems in eastern China. Global Chang座速政e Biology, 14(11): 2555-2571.
2)Hirata R., Saigu束说前甚权雷sa N., S. Yamamoto, Y. Ohtani, R. Ide, 况般规敌切J. Asanuma, M. Gamo, T. Hirano, H. Kondo, Y. Kosugi, S.-G. Li, Y. Nakai, K. Takagi, M. Tani, and H食场海书的老教众.-M. Wang. 2008. Spatial 煤可毫诉味她地案翻表印distribution of carbon balance in forest ecosystems across East As杀ia. Agricultural and Forest Meteorology, 148: 761–775.
3)Saigusa N., S广帮. Yamamoto, R. Hirata, Y. Ohtani, R. Ide, J. Asanuma, M. Gamo, T. Hirano, H. Kon云错攻成快do, Y. Kosugi, S.-G. Li, Y. Nakai, K. Takagi, M. Tani, and H.-M. Wang. 2008. Temporal and spatial variations in the seasonal patterns of CO2 flux in boreal, temperate, and tropical forests in East Asia. Agricultural and Forest Meteorology, 148: 700–713.
4)Li S.-G., W. Eugster, J. Asanuma, A. Kotani, G. Davaa, D. Oyunbaatar & M. Sugita. 2008. Response of gross ecosystem productivity, light use efficiency and water use efficiency of Mongolian steppe to seasonal variations in so石根余通奏实结尽式套指il moistu高袁re. Journal of Geophysical Research-Biogeosciences, 113, G01019, doi:10.1029/2006JG知获么究据缩乱000349.
5)Li S帝论打根命战鸡.-G., Tsujimura M., Sugimoto A., Davaa G., Oyunbaatar D. and Sugita M. 2007b. Temporal variation of δ13C of larch leaves from a montane boreal forest in Mongolia. Trees-Structure and Function, 21, 479–490.
6)Li S.-G., Asanuma J., Kotani A., Davaa G. and Oyunbaatar D. 2007c. Evapotranspiration from a Mongolian steppe under grazing and its environmental constraints. Journal of Hydrology, 333: 133–143.
7)Li S.-G., Romero-Saltos H.G., Tsujimura M., Sugimoto A., Sasaki L., Davaa G., Oyunbaatar D. 2007d. Plant water sources in the cold semiarid ecosystem of the upper Kherlen River catchment in Mongolia: A stable isotope approach. Journal of Hydrology, 333: 109–117.
8)Tsujimura M., Sasaki L., Yamanaka T., Sugimoto A., Li S.-G., Matsushima D., Kotani A. and Saandar M. 2007. Vertical distribution of stable isotopic composition in atmospheric water vapor and subsurface water in grassland and forest sites, eastern Mongolia. Journal of Hydrology, 333: 35–46.
9)Li S.-G., Eugster W., Asanuma J., Kotani A., Davaa G., Oyunbaatar D. and Sugita M. 2006. Energy partitioning and its biophysical controls above a grazing steppe in central Mongolia. Agricultural and Forest Meteorology, 137(1-2): 89–106.
10)Li S.-G., Tsujimura M., Sugimoto A., Davaa G., Oyunbaatar D. and Sugita M. 2006. Natural recovery of steppe vegetation on vehicle tracks in central Mongolia. Journal of Biosciences, 31: 85–93.
11)Li S.-G., Tsujimura M., Sugimoto A., Sasaki L., Yamanaka T., Davaa G., Oyunbaatar D. and Sugita M. 2006. Seasonal variations in oxygen isotope composition of waters for a montane larch forest in Mongolia. Trees-Structure and Function, 20: 122–130.
12)Li S.-G., Asanuma J., Eugster W., Kotani A., Liu J.J., Urano T., Oikawa T., Davaa G., Oyunbaatar D. and Sugita M. 2005. Net ecosystem carbon dioxide exchange over grazed steppe in central Mongolia. Global Change Biology, 11: 1941–1955.
13)Li S.-G., Asanuma J., Kotani A., Eugster W., Davaa G., Oyunbaatar D. and Sugita M. 2005. Year-round measurements of net ecosystem CO2 flux over a montane larch forest in Mongolia. Journal of Geophysical Research-Atmosphere, 110: D09303, doi:10.1029/2004JD005453.
14)Li S.-G., Lai C.-T., Lee G., Shimoda S., Yokoyama T., Higuchi A. and Oikawa T..2005. Evapotranspiration from a wet temperate grassland and its sensitivity to microenvironmental variables. Hydrological Processes, 19: 517–532.
15)Li S.-G., Lai C.-T., Yokoyama T. and Oikawa T. 2003. Seasonal variation in energy budget and net ecosystem CO2 exchange over a wet C3/C4 co-occurring grassland: effects of development of the canopy. Ecological Research, 18: 661–675.
16)Li S.-G., Harazono Y., He Z.-Y., Zhao H.-L., Chang X.-L., Zhang T.-H. and Oikawa T. 2002. Micrometeorological changes following establishment of artificial artemisia vegetation on dunes and their implication in combating desertification in Inner Mongolia. Journal of Arid Environments, 52: 101–119.
17)Li S.-G., Harazono Y., Oikawa T., Zhao H.-L., He Z.-Y. and Chang X.-L. 2000. Grassland desertification by grazing and the resulting micrometeorological changes in Inner Mongolia. Agricultural and Forest Meteorology, 102: 125–137.