石培禮

1999年在中國科學院自然資源綜合考察委員會獲生態學專業博士學位，2004年瑞士巴塞爾大學植物研究所和2008年美國俄克拉荷馬州立大學高級研究學者，2007年獲青藏高原青年科技獎。現任植物生態學報編委，中國科學院研究生院兼職教授。

研究領域是植物生理生態學和生態系統生態學。在植物生理生態學方面主要研究高海拔植物的生理生態適應、高山樹線形成機理及其對氣候變化的回響；在生態系統生態學方面主要開展青藏高原主要生態系統的碳循環過程、生物多樣性與生態系統功能的研究。

目前主持國家自然科學基金面上項目、國際山地綜合發展中心(ICIMOD)、瑞士自然科學基金和日本雙邊合作項目等國際合作項目、中科院和中組部“西部之光”項目及聯合學者項目及參加國家973課題和國家科技支撐項目10餘項。

1) 高原植物對極端環境因素和氣候變化的回響與適應機制

以高原農作物和高山樹線為對象，揭示了植物對高寒環境的適應及生產力形成機制。發現青藏高原低CO2分壓條件下植物不存在光合和生理的劣勢，青藏高原不同生活型的世界最高樹線樹木在目前CO2濃度下生長已達碳飽和。

2) 生態系統碳、氮循環過程及植物-微生物相互作用

運用箱式法、渦度相關技術及植物生態學的理論和方法，研究了西藏典型生態系統的碳循環特徵，發現優勢植物物候對控制碳循環水熱因子的修飾作用和春末、秋季脈衝式降水對生態系統碳源/匯關係影響的不確定性。研究了高寒草甸生態系統地上-地下氮素運移規律及植物與微生物之間的關係，揭示高寒植物利用不同形態氮的生態位分化和物種共存的機制

在國內外學術刊物上發表論文80餘篇，其中SCI論文30餘篇. 參與撰寫專著8部

1) Zong, N., Song, M., Shi, P., Jiang, J., Zhang, X. & Shen, Z. 2014. Timing patterns of nitrogen application alter plant production and CO2 efflux in an alpine meadow on the Tibetan Plateau, China

2) Wu, J.S., Shen, Z.X., Shi, P.L., Zhou, Y.T. & Zhang, X.Z. 2014. Effects of Grazing Exclusion on Plant Functional Group Diversity of Alpine Grasslands along a Precipitation Gradient on the Northern Tibetan Plateau

3) Jiang, J., Shi, P., Zong, N., Fu, G., Shen, Z., Zhang, X. & Song, M. 2014. Climatic patterns modulate ecosystem and soil respiration responses to fertilization in an alpine meadow on the Tibetan Plateau, China

4) He, Y., Xu, X., Kueffer, C., Zhang, X. & Shi, P. 2014. Leaf litter of a dominant cushion plant shifts nitrogen mineralization to immobilization at high but not low temperature in an alpine meadow

5) Zong, N., Shi, P., Jiang, J., Song, M., Xiong, D., Ma, W., Fu, G., Zhang, X. & Shen, Z. 2013. Responses of ecosystem CO2 fluxes to short-term experimental warming and nitrogen enrichment in an alpine meadow, northern Tibet Plateau

6) Wu, J., Zhang, X., Shen, Z., Shi, P., Xu, X. & Li, X. 2013. Grazing-Exclusion Effects on Aboveground Biomass and Water-Use Efficiency of Alpine Grasslands on the Northern Tibetan Plateau

7) Jiang, J., Zong, N., Song, M., Shi, P., Ma, W., Fu, G., Shen, Z., Zhang, X. & Ouyang, H. 2013. Responses of ecosystem respiration and its components to fertilization in an alpine meadow on the Tibetan Plateau

8) Fujimura, S., Shi, P., Iwama, K., Zhang, X., Gopal, J. & Jitsuyama, Y. 2010. Effect of Altitude on the Response of Net Photosynthetic Rate to Carbon Dioxide Increase by Spring Wheat

9) Ma, W., Shi, P., Li, W., He, Y., Zhang, X., Shen, Z. & Chai, S. 2010. Changes in individual plant traits and biomass allocation in alpine meadow with elevation variation on the Qinghai-Tibetan Plateau

10) Shi P, Körner Ch., Hoch G. 2008. A test of the growth-limitation theory for alpine treeline formation in evergreen- and deciduous taxa of the Eastern Himalayas. Functional Ecology

11) Li M., Xiao W., Shi P., et al. 2008. Nitrogen and carbon source–sink relationships in trees at the Himalayan treelines compared with lower elevations

12) Xu L., Zhang X., Shi P., et al. 2007. Modeling the maximum apparent quantum use efficiency of alpine meadow ecosystem on the Tibetan Plateau. Ecological Modelling

13) Shi P., Zhang X., Zhong Z., et al. 2006. Diurnal and seasonal variability of soil CO2 efflux in a cropland ecosystem on the Tibetan Plateau

14) Shi P., Körner Ch., Hoch G. 2006. End of season carbon supply status of woody species near the treeline in western China

15) Shi P., Sun X., Xu L., et al. 2006. Net ecosystem CO2 exchange and controlling factors in a steppe-Kobresia meadow on the Tibetan Plateau. Science in China, Ser

16) Sun S., Jin D., Shi P. 2006. The leaf size-twig size spectrum of temperate woody species along an altitudinal gradient: An invariant allometric scaling relationship