王智平 - 中国科学院大学 - 资源与环境学院

个人简介

招生专业 071300-生态学招生方向生物和环境地球化学、全球变化生态学学历 1999.9–2002.6，北京师范大学，获理学博士，环境科学 1988.9–1991.6，中国科学院石家庄农业现代化所，获理学硕士，生态学 1984.9–1988.6，皖南农学院，获农学学士，农学工作经历 2009.10–现在，中国科学院植物所，研究员 2004.7–2009.9，中国科学院植物所，副研究员 2002.7–2004.6，中国科学院植物所，博士后 1991.7–1999.8，中国科学院石家庄农业现代化所，助研、副研 2012.4–2014.3，Visiting professor，爱尔伯特大学 (University of Alberta)，加拿大 2008.12–2009.11，Visiting scholar，马普化学所 (Max-Planck Institute for Chemistry)，德国 2006.9–2007.12，Visiting scientist，克莱姆松大学 (Clemson University)，美国 2000.3–2001.3，Royal fellowship，约克大学 (The University of York)，英国科研活动科技部重点研发项目的课题：生态系统碳源汇形成的作用机理及效应，主持，2016.7~2021.6。基金委面上基金：植物和土壤的非微生物甲烷生成和排放，主持，2014.1~2017.12。

研究领域

全球变化生态学、生物地球化学、环境地球化学

近期论文

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Gu Q., Chang S., Wang Z.P.*, Feng J.C., Chen Q.S., Han X.G. 2016. Microbial versus non-microbial methane releases from fresh soils at different temperatures. Geoderma 284, 178–184. Wang Z.P.*, Gu Q., Deng F.D., Huang J.H., Megonigal J.P., Yu Q., Lü X.T., Li L.H., Chang S., Zhang Y.H., Feng J.C., Han X.G. *. 2016. Methane emissions from the trunks of living trees on upland soils. New Phytologist 211: 429–439. Wang Z.P., Chang S. X.*, Chen H., Han X. G.*. 2013. Widespread non-microbial methane production by organic compounds and the impact of environmental stresses. Earth-Science Reviews 127, 193–202. Wang Z.P.*, Han X. G., Chang S. X., Wang B., Yu Q., Hou L. Y., Li L. H. 2013. Soil organic and inorganic carbon contents under various land uses across a transect of continental steppes in Inner Mongolia. Catena 109, 110–117. Hou L.Y., Wang Z.P.*, Wang J.M., Wang B., Zhou S.B., Li L.H. 2012. Growing season in situ uptake of atmospheric methane by desert soils in a semiarid region of northern China. Geoderma 189-190, 415–422. Wang Z.P.*, Xie Z.Q., Zhang B.C., Hou L.Y., Zhou Y.H., Li L.H., Han X.G. 2011. Aerobic and anaerobic nonmicrobial methane emissions from plant material. Environmental Science & Technology 45, 9531–9537. Wang Z.P.*, Keppler F., Greule M., Hamilton J.T.G. 2011. Non-microbial methane emissions from fresh leaves: Effects of physical wounding and anoxia. Atmospheric Environment 45, 4915–4921. Wang Z.P., Song Y., Gulledge J., Yu Q., Liu H.S., Han X.G.* 2009. China’s grazed temperate grasslands are a net source of atmospheric methane. Atmospheric Environment 43, 2148–2153. Wang Z.P.*, Gulledge J., Zheng J.Q., Liu W., Li L.H., Han X.G. 2009. Physical injury stimulates aerobic methane emissions from terrestrial plants. Biogeosciences 6, 615–621. Wang Z.P.*, Han X.G., Wang G.G., Song Y., Gulledge J. 2008. Aerobic Methane Emission from Plants in the Inner Mongolia Steppe. Environmental Science & Technology 42, 62–68. Wang Z.P.*, Han X.G., Li L.H. 2008. Effects of grassland conversion to croplands on soil organic carbon in the temperate Inner Mongolia. Journal of Environmental Management 86, 529–534. Wang Z.P., Li L.H.*, Han X.G., Li Z.Q., Chen Q.S. 2007. Dynamics and allocation of recently photo-assimilated carbon in an Inner Mongolia temperate steppe. Environmental and Experimental Botany 59, 1–10. Wang Z.P.*, Han X.G., Li L. H. 2006. Methane emission patches in riparian marshes of the Inner Mongolia. Atmospheric Environment 40, 5528–5532. Wang Z.P.*, Han X.G. 2005. Diurnal variation in methane emissions in relation to plants and environmental variables in the Inner Mongolia marshes. Atmospheric Environment 39, 6295–6305. Wang Z.P.*, Han X.G., Li L.H., Chen Q.S., Duan Y., Cheng W.X. 2005. Methane emission from small wetlands and implications for semiarid region budgets. Journal of Geophysical Research 110, D13304, doi:10.1029/2004JD005548. Wang Z.P.*, Duan Y., Yang J.R., Li L.H., Han X.G. 2004. Plateau Marsh Methane Oxidation as Affected by Inorganic N. Pedosphere 14(2), 195–204. Wang Z.P.*, Ineson P. 2003. Methane oxidation in a temperate coniferous forest soil: effects of inorganic N. Soil Biology & Biochemistry 35(3), 427–433.