Associate Editor of Journal of Hydrology
招生专业:自然地理学
研究方向:水文气候;陆气相互作用与气候变化;极端气候;生态水文与碳水循环
招生计划:课题组招收博士后研究人员、2024级硕博士研究生。
2013/09-2018/01 清华大学水利水电工程系 博士
2009/09-2013/07 清华大学水利水电工程系 本科
2022/07至今 北京师范大学 地理科学学部 研究员
2021/05-2022/06 北京师范大学 地理科学学部 副教授
2021/02-2021/04 美国哥伦比亚大学 地球与环境工程系 副研究员
2018/07-2021/01 美国哥伦比亚大学 拉蒙特-多尔蒂地球观测所/地球所 博士后
2018/02-2018/06 美国哥伦比亚大学 地球与环境工程系 博士后
研究生课程:《陆气相互作用与气候变化》
博士生课程:《生态气候学》
国家重点研发计划课题,中国东北地区陆-气跨圈层相互作用过程和机制,2022-12至2027-11,在研,参与
国家重点研发计划课题,气候与土地利用变化影响病原体溢出的时空格局,2022-12至2027-11,在研,参与
国家自然科学基金优秀青年科学基金项目(海外),气候-水文-生态相互作用,2022-01至2024-12,在研,主持
美国哥伦比亚大学,拉蒙特-多尔蒂地球观测所博士后基金项目(Lamont-Doherty Earth Observatory Postdoctoral Fellowship),Hydraulic and demand regulation of stomatal conductance determines drought impact on carbon and water exchanges,2018-07至2021-01,结题,主持
美国哥伦比亚大学,地球所博士后基金项目(Earth Institute Postdoctoral Research Program),Improving water catchment resilience through more knowledge of actual water demand and catchment management,2018-07至2020-06,结题,主持
近年来,在Nature Climate Change、Science Advances、PNAS等期刊发表研究论文60余篇,第一作者论文19篇:
Zhou, S., Yu, B., Lintner, B. R., Findell, K. L., & Zhang, Y. (2023) Projected increase in global runoff dominated by land surface changes. Nature Climate Change, 13, 442-449.
Zhou, S., Yu, B., & Zhang, Y. (2023) Global concurrent climate extremes exacerbated by anthropogenic climate change. Science Advances, 9, eabo1638.
Zhou, S., Williams, A. P., Lintner, B. R., Findell, K. L., Keenan, T. F., Zhang, Y., & Gentine, P. (2022) Diminishing seasonality of subtropical water availability in a warmer world dominated by soil moisture-atmosphere feedbacks. Nature Communications, 13, 5756.
Zhou, S., Keenan, T. F., Williams, A. P., Lintner, B. R., Zhang, Y., & Gentine, P. (2022) Large divergence in tropical hydrological projections caused by model spread in vegetation responses to elevated CO2. Earth's Future, 10, e2021EF002457.
Zhou, S., Williams, A. P., Lintner, B. R., Berg, A., Zhang, Y., Keenan, T. F., Cook, B., Hagemann, S., Seneviratne, S. I., & Gentine, P. (2021) Soil moisture-atmosphere feedbacks mitigate declining water availability in drylands. Nature Climate Change, 11, 38-44.
Zhou, S., Williams, A. P., Berg, A., Cook, B., Zhang, Y., Hagemann, S., Lorenz, R., Seneviratne, S. I., & Gentine, P. (2019) Land-atmosphere feedbacks exacerbate concurrent soil drought and atmospheric aridity. Proceedings of the National Academy of Sciences, 116, 18848-18853.
Zhou, S., Zhang, Y., Williams, A. P., & Gentine, P. (2019) Projected increases in intensity, frequency, and terrestrial carbon costs of compound drought and aridity events. Science Advances, 5, eaau5740.
Zhou, S., Liang, J., Lu, X., Li, Q., Jiang, L., Zhang, Y., Schwalm, C., Fisher, J., Tjiputra, J., Sitch, S., Alhström, A., Huang, Y., Wang, G., & Luo, Y. (2018) Sources of uncertainty in modeled land carbon storage within and across three MIPs: diagnosis with three new techniques. Journal of Climate, 31, 2833-2851.
Zhou, S., Yu, B., Zhang, Y., Huang, Y., & Wang, G. (2018) Water use efficiency and evapotranspiration partitioning for three typical ecosystems in the Heihe River Basin. Agricultural and Forest Meteorology, 253-254, 261-273.
Zhou, S., Yu, B., Schwalm, C., Ciais, P., Zhang, Y., Fisher, J., Michalak A., Wang W., Poulter B., Huntzinge, D., Niu, S., Mao, J., Jain, A., Ricciuto, D., Shi, X., Ito, A., Wei, Y., Huang, Y., & Wang, G. (2017) Response of water use efficiency to global environmental change based on output from terrestrial biosphere models. Global Biogeochemical Cycles, 31, 1639-1655.
Zhou, S., Zhang, Y., Ciais, P., Xiao, X., Luo, Y., Caylor, K.K., Huang, Y., & Wang, G. (2017) Dominant role of plant physiology in trend and variability of gross primary productivity in North America. Scientific Reports, 7, 41366.
Zhou, S., Yu, B., Zhang, L., Huang, Y, Pan, M., & Wang, G. (2016) A new method to partition climate and catchment effect on the mean annual runoff based on the Budyko complementary relationship. Water Resources Research, 52, 7163-7177.
Zhou, S., Zhang, Y., Caylor, K.K., Luo, Y., Xiao, X., Ciais, P., Huang, Y., & Wang, G. (2016) Explaining inter-annual variability of gross primary productivity from plant phenology and physiology. Agricultural and Forest Meteorology, 226, 246-256.
Zhou, S., Yu, B., Zhang, Y., Huang, Y., & Wang, G. (2016) Partitioning evapotranspiration based on the concept of underlying water use efficiency. Water Resources Research, 52, 1160-1175.
Zhou, S., Huang, Y., Wei, Y., & Wang, G. (2015) Socio-hydrological water balance for water allocation between human and environmental purposes in catchments. Hydrology and Earth System Sciences, 19, 3715-3726.
Zhou, S., Yu, B., Huang, Y., & Wang, G. (2015) Daily underlying water use efficiency for AmeriFlux sites. Journal of Geophysical Research: Biogeosciences, 120, 887-902.
Zhou, S., Yu, B., Huang, Y., & Wang, G. (2015) The complementary relationship and generation of the Budyko functions. Geophysical Research Letters, 42, 1781-1790.
Zhou, S., Huang, Y., Yu, B., & Wang, G. (2015) Effects of human activities on the eco-environment in the middle Heihe River Basin based on an extended environmental Kuznets curve model. Ecological Engineering, 76, 14-26.
Zhou, S., Yu, B., Huang, Y., & Wang, G. (2014) The effect of vapor pressure deficit on water use efficiency at the subdaily time scale. Geophysical Research Letters, 41, 5005-5013.
2018 美国哥伦比亚大学拉蒙特-多尔蒂地球观测所博士后奖学金
2018 美国哥伦比亚大学地球所博士后奖学金
2018 清华大学优秀博士毕业生
2018 清华大学优秀博士论文一等奖
2017 清华大学蒋南翔奖学金
2016 清华大学“学术新秀”
2014/2015/2016 博士研究生国家奖学金(3次)
2013 清华大学优秀毕业生
2012 国家奖学金
主要从事气候-水文-生态过程耦合与反馈机理研究,取得了以下原创性成果:1)揭示了土壤-大气干旱的陆-气反馈驱动机理、生态影响及未来风险,提升了对复合干旱机理和风险的认知;2)发现了土壤水-大气反馈减缓干旱区地表可用水量的下降趋势并阐明其大气动力学机制,解释了热力学理论与模型模拟差异的原因;3)提出了表征植被稳定碳水耦合关系的潜在水分利用效率指标,建立了潜在水分利用效率蒸散发分离方法,解决了生态系统尺度植被蒸腾与土壤蒸发拆分的难题。曾主持2项哥伦比亚大学博士后基金项目,以第一作者在Nature Climate Change、Science Advances、PNAS等国际顶级期刊发表论文19篇,3篇为ESI高引用论文,论文总引用超过3500次(Google Scholar)。担任Nature Communications, Nature Ecology & Evolution, Nature Reviews Earth & Environment等期刊审稿人。