孫福寶

2002年--2007年 清華大學 水利工程 學博士（直博）論文題目：基於Budyko假設的流域蒸散發研究

1998年--2002年 清華大學 水利水電建築工程 工學學士 ^[2] 

2007年--2009年 日本東京大學生產技術研究所 衝-鼎全球水循環與水資源工程研究組 博士後

2009年--2011年 澳大利亞國立大學 生物研究學院 Graham Farquhar環境生物學研究組 博士後

2011年--2014年澳大利亞國立大學氣候系統科學中心 區域氣候與地表過程耦合模擬研究組 講 師 ^[2] 

2014年起，先後擔任中國科學院地理科學與資源研究所研究員、博士生導師、綜合辦公室主任，中國科學院新疆生態與地理研究所副所長（其間，2016-2018掛職擔任河西學院副校長） ^[1] 

2024年1月，任中國科學院地理科學與資源研究所所長（試用期一年）。 ^[3] 

全球變化及陸地表層水熱平衡格局研究 ^[2] 

全球變化，地表水熱平衡、統計水文氣候學等 ^[2] 

2019-：中國地理學會自然災害風險與綜合減災專業委員會委員

2018-：《中國氣候與生態環境演變：2021》章主要作者協調人（CLA）

2016-：Earth System Dynamics編輯

2016-：Environmental Research Letter編輯

2014-：Geo-environmental Disasters編輯

2017：第十屆中德前沿科學研討會組委會主席

2016-：國際水文科學協會Panta Rhei中國工作委員會副秘書長兼北京辦公室主任

2017-：中國科學院水資源研究中心秘書長

2017-：中國冰凍圈科學學會理事

2017-：中國生態學會生態水文專業委員會委員

2016-：中國自然資源學會水資源專業委員會常務委員

2017-：中國地理學會水文地理專業委員會委員 ^[2] 

2019：入選國家萬人計劃青年拔尖人才

2014：歐洲地球科學聯合會（EGU）傑出青年科學家獎（Outstanding Young Scientists Award），維也納

2012：AGU 《Water Resources Research》年度最佳論文獎（Editors’ Choice Award）（前1%），舊金山

2012：Sun et al. GRL美國地球物理聯合會（AGU）研究亮點與特色論文（Featured Articles/Research Spotlight）

2011：Sun et al. WRR美國地球物理聯合會（AGU）研究亮點與特色論文（Featured Articles/Research Spotlight）

2010：Sun et al. GRL美國地球物理聯合會（AGU）最受歡迎論文之一

2007：清華大學優秀博士論文一等獎，清華大學優秀博士畢業生（前1%）

2004：清華大學“一二 九”優秀輔導員獎

2001：清華大學校運動會男子400米冠軍

2007：東京國際馬拉松賽

2003：北京國際馬拉松賽 ^[2] 

長期從事全球變化及其對區域水熱格局影響機制研究，在以下三個方面取得初步研究進展：

（1）基於傳統區域水熱平衡原理，以蒸散發機理為關鍵紐帶，提出了區域水熱格局在不同氣候類型與下墊麪條件下對氣候變化響應的解析關係，揭示了陸地水熱格局演變的控制機理。

（2）發展了一種新的氣候時空變異性解析理論方法，用於識別陸表水熱平衡變量氣候變化和氣候變動影響的熱點區域，為揭示水熱關鍵變量的時空變異性特徵解決了時空尺度不一致的問題。

（3）解析全球變化下陸地表層乾濕格局的形成機理，揭示全球升温1.5 度條件下全球乾旱和洪澇風險的時空格局。 ^[2] 

[1] Yang, Tao; Sun, Fubao*; Gentine, Pierre; Liu, Wenbin; Wang, Hong; Yin, Jiabo; Du, Muye; Liu, Changming (2019), Evaluation and machine learning improvement of global hydrological model-based flood simulations, Environmental Research Letters.

[2] Wenbin Liu*, Fubao Sun*, Shaobo Sun, Limai Guo, Hong Wang, Huijuan Cui (2019), Multi-scale assessment of eco-hydrological resilience to drought in China over the last three decades, Science of The Total Environment, 672, 201-211.

[3] Limai Guo, Nan Shan, Yongguang Zhang, Fubao Sun, Wenbin Liu, Zhongjie Shi, Qian Zhang (2019), Separating the effects of climate change and human activity on water use efficiency over the Beijing-Tianjin Sand Source Region of China, Science of The Total Environment, 690, 2019, 584-595.

[4] Limai Guo, Fubao Sun*, Wenbin Liu, Yongguang Zhang, Hong Wang, Huijuan Cui, Hongquan Wang, Jie Zhang and Benxu Du (2019), Response of Ecosystem Water Use Efficiency to Drought over China during 1982–2015: Spatiotemporal Variability and Resilience, Forests, 10(7), 598;

[5] Zhang, J., F. Sun*, W. Lai et al. (2019), Attributing changes in future extreme droughts based PDSI in China, Journal of Hydrology. (In press)

[6] Liu, W. and F. Sun* (2019), Increased adversely-affected population from water shortage below normal conditions in China with anthropogenic warming, Science Bulletin. (In press)

[7] Yang, T., F. Sun*, W. Liu (2019), Using Geo-detector to attribute spatiotemporal variation of pan evaporation across China in 1961-2001, International Journal of Climatology, 1-9.(In press)

[8] Sun, F., M. L. Roderick, & G. D. Farquhar (2018), Rainfall statistics, stationarity and climate change, PNAS, 110(10), 2305-2310.

[9] Liu,F., F. Sun*, W. Liu, T. Wang, H. Wang, X. Wang, W. H. Lim (2018), On wind speed pattern and energy potential in China, Applied Energy (Accepted).

[10] Wang, H., F. Sun*, W. Liu (2018), The dependence of daily and hourly precipitation extremes on temperature and atmospheric humidity over China, Journal of Climate, doi.org/10.1175/JCLI-D-18-0050.1.

[11] Liu,W.*, L. Wang, F. Sun*, Z Li, H. Wang, T. Yang, J. Zhou and J. Qi (2018), Snow hydrology in the upper Yellow River basin under climate change: a modeling perspective, Journal of Geophysical Research: Atmospheres, 123, doi:10.1002/2018JD028984.

[12] Wang, T., F. Sun*, J. Xia, W. Liu, Y. Sang, H. Wang (2018), An experimental detrending approach to attributing change of pan evaporation in comparison with the traditional partial differential method, Journal of Hydrology, 564, 501-508, doi.org/10.1016/j.jhydrol.2018.07.021.

[13] Lim, W. H., Yamazaki, D., Koirala, S., Hirabayashi, Y., Kanae, S., Dadson, S. J., J.W. Hall, and F. Sun* (2018), Long-term changes in global socioeconomic benefits of flood defenses and residual risk based on CMIP5 climate models. Earth’s Future, 6.doi.org/10.1002/2017EF000671.

[14] Liu W., W. H. Lim, F. Sun*, D. Mitchell, H. Wang, D. Chen, I. Bethke, H. Shiogama and E. Fischer (2018), Global Freshwater availability below normal conditions and population impact under 1.5°C and 2°C stabilization scenarios, Geophysical Research Letters, doi:10.1002/2018GL078789.

[15] Wang, T., F. Sun*, H. L. Wee, H. Wang, W. Liu, and C. Liu, 2018: The predictability of annual evapotranspiration and runoff in humid and non-humid catchments over China: comparison and quantification. Journal of Hydrometeorology 19, 533-545.

[16] Wang, T., Sun, F. *, Ge, Q., Kleidon, A., & Liu, W. (2018). The effect of elevation bias in interpolated air temperature data sets on surface warming in China during 1951–2015. Journal of Geophysical Research: Atmospheres, 123, 2141–2151.

[17] Liu, W., Sun, F.*, Lim, W. H., Zhang, J., Wang, H., Shiogama, H., and Zhang, Y. (2018), Global drought and severe drought-affected populations in 1.5 and 2°C warmer worlds, Earth System Dynamics, 9, 267-283.

[18] Liu, W., F. Sun*, Y. Li, G. Zhang, Y. F. Sang, W. H. Lim, J. Liu, H. Wang, and P. Bai (2018), Investigating water budget dynamics in 18 river basins across the Tibetan Plateau through multiple datasets, Hydrology and Earth System Sciences, 22, 351-371.

[19] Wang, H., F. Sun*, T Wang, W Liu (2018), Estimation of Daily and Monthly Diffuse Radiation from Measurements of Global Solar Radiation a Case Study across China,Renewable Energy, 126 (2018) 226-241.

[20] Wang, H., F. Sun*, W. Liu (2018), Spatial and Temporal Patterns as well as Major Influencing factors of Solar and Diffuse Radiation over China: 1960-2014, Solar Energy, 159, 601-615.

[21] Sang, Y.-F.*, Sun, F.*, Singh, V. P., Xie, P., and Sun, J. （2018），A discrete wavelet spectrum approach for identifying non-monotonic trends in hydroclimate data, Hydrology and Earth System Sciences, 22, 757-766.

[22] Liu, W., and F. Sun* (2017), Projecting and Attributing Future Changes of Evaporative Demand over China in CMIP5 Climate Models, Journal of Hydrometeorology, 18 (4), DOI: 10.1175/JHM-D-16-0204.1.

[23] Wang, H., F. Sun*, J. Xia, and W. Liu (2017), Impact of LUCC on streamflow based on the SWAT model over theWei River basin on the Loess Plateau in China, Hydrology and Earth System Sciences, 21, 1–17.

[24] Wang, T,J. Zhang, F. Sun*, and W. Liu (2017), Pan evaporation paradox and evaporative demand from the past to the future over China: a review, Wiley Interdisciplinary Reviews Water, e1207. doi: 10.1002/wat2.1207.

[25] Zhang, Y., F. H. S. Chiew, J. Pea-Arancibia, F. Sun, H. Li, and R. Leuning (2017), Global variation of transpiration and soil evaporation and the role of their major climate drivers, Journal of Geophysical Research: Atmospheres, 122, doi:10.1002/2017JD027025.

[26] Liu, F., G. Zhang, H. Wang, F. Sun and L. Sun (2017), Quantifying the Surface Covering, Binding and Bonding Effects of Biological Soil Crusts on Soil Detachment by Overland Flow, Earth Surface Processes and Landforms, 42 (15), 2640–2648.

[27] Liu, W., and F. Sun* (2016), Assessing estimates of evaporative demand in climate models using observed pan evaporation over China, Journal of Geophysical Research: Atmospheres, 121, doi:10.1002/2016JD025166.

[28] Zhang, J., F. Sun*, J. Xu, Y. Chen, Y.-F. Sang, and C. Liu (2016), Dependence of trends in and sensitivity of drought over China (1961–2013) on potential evaporation model, Geophysical Research Letters, 43, 206–213, doi:10.1002/2015GL067473.

[29] Sang, Y.-F.*, V. P. Singh, T. Gong, K. Xu, F. Sun*, C. Liu, W. Liu, and R. Chen (2016), Precipitation variability and response to changing climatic condition in the Yarlung Tsangpo River basin, China, Journal of Geophysical Research: Atmospheres, 121, doi:10.1002/2016JD025370.

[30] Du, C. Y., F. Sun*, J. Yu, X. Liu, and Y. Chen. New interpretation of the role of water balance in an extended Budyko hypothesis in arid regions, Hydrology and Earth System Sciences, 2016, 20(1), 393-409.

[31] Liu, W. L. Wang, J. Zhou, Y. Li, F. Sun, G. Fu, X. Li, Y-F. Sang (2016), A worldwide evaluation of basin-scale evapotranspiration estimates against the water balance method, Journal of Hydrology, 538: 82-95.

[32] Roderick, M. L., Sun, F., Lim, W. H., and Farquhar, G. D.: A general framework for understanding the response of the water cycle to global warming over land and ocean, Hydrology and Earth System Sciences, 18, 1575-1589, doi:10.5194/hess-18-1575-2014, 2014.

[33] Yin D., M. L. Roderick, G. Leech, F. Sun (2014), On the relation between temperature and drought. Geophysical Research Letters, doi:10.1029/2014GL061370.

[34] Zhan, C.S., S.S. Jiang, F. Sun, Y.W. Jia, C.W. Niu, and W. F.Yue, (2014), Quantitative contribution of climate change and human activities to runoff changes in the Wei River basin, China, Hydrology and Earth System Sciences,18,3069-3077.

[35] Wang, Y., Roderick, M. L., Shen, Y., and Sun, F. (2014), Attribution of satellite-observed vegetation trends in a hyper-arid region of the Heihe River basin, Western China, Hydrology and Earth System Sciences, 18, 3499-3509.

[36] Sun, F., M. L. Roderick, and G. D. Farquhar (2012), Changes in the variability of global land precipitation, Geophysical Research Letters, 39, L19402, doi:10.1029/2012GL053369.

[37] Roderick, M. L., F. Sun, and G. D. Farquhar (2012), Water Cycle Varies over Land and Sea, Science, 336, 1230-1231.

[38] Zhang, Y., R. Leuning, F. Chiew, E. Wang, L. Zhang, C. Liu, F. Sun, M. Peel, Y. Shen, M. Jung (2012), Decadal trends in evaporation from global energy and water balances, Journal of Hydrometeorology, 13, 379-391.

[39] Lim, W. H., M. L. Roderick, M. T. Hobbins, S. C. Wong, P. J. Groeneveld, F. Sun, G. D. Farquhar (2012), The Aerodynamics of Pan Evaporation, Agricultural and Forest Meteorology, 152, 31-43.

[40] Sun, F., M. L. Roderick, W. H. Lim, and G. D. Farquhar (2011), Hydroclimatic projections for the Murray-Darling Basin based on an ensemble derived from Intergovernmental Panel on Climate Change AR4 climate models, Water Resources Research, 47, W00G02, doi:10.1029/2010WR009829.

[41] He, B*., T. Oki, F. Sun*, D. Komori, S. Kanae, Y. Wang, H. Kim, and D. Yamazaki (2011), Estimating monthly total nitrogen concentration in streams by using artificial neural network, Journal of Environmental Management. 92(1), 172-177.

[42] Sun,F., M. L. Roderick, G. D. Farquhar, W. H. Lim, Y. Zhang, N. Bennett, and S. H. Roxburgh (2010), Partitioning the variance between space and time, Geophysical Research Letters, 37, L12704, doi:10.1029/2010GL043323.

[43] Yang, H., D. Yang, Z. Lei, and F. Sun (2008), New analytical derivation of the mean annual water-energy balance equation, Water Resources Research, 44, W03410, doi:10.1029/2007WR006135.

[44] Yang, D., F. Sun, Z. Liu, Z. Cong, G. Ni, and Z, Lei (2007), Analyzing spatial and temporal variability of annual water-energy balance in non-humid regions of China using the Budyko hypothesis, Water Resources Research, 43, W04426, doi:10.1029/2006WR005224.

[45] Yang, D., F. Sun, Z. Liu, Z. Cong, and Z, Lei (2006), Interpreting the complementary relationship in non-humid environments based on the Budyko and Penman hypotheses. Geophysical Research Letters, 33, L18402, doi:10.1029/2006GL027657. ^[2] 

[11] Sun, F. et al. (2017), Atmospheric evaporative demand in climate models: an observed element relevant to drought projections (Invited), The Fourth Santa Fe Climate Conference, 5-10 Feb. 2017

[10] Sun, F., M. L. Roderick, and G. D. Farquhar (2014), Changes in the variability of global precipitation (Invited Medal Lecture), EGU General Assembly, Vienna, Austria, 27 April-2 May.

[9] Roderick, M. L., F. Sun, S. I. Seneviratne, and G. D. Farquhar (2014), Measuring aridity: perspective from meteorology, agriculture and hydrology (Invited), EGU General Assembly, Vienna, Austria, 27 April-2 May.

[8] Farqhuar, G.D., F. Sun, and M.L. Roderick (2014), Predicted and observed multi-decadal changes in climate, with particular reference to precipitation and crop demand for water (Invited), Breeding plants to cope with future climate change, Association of applied biologists, University of Leeds, 16-18 June.

[7] Sun, F., M. L. Roderick, and G. D. Farquhar (2013), Changes in the Global Land Precipitation Variability in Observations and in Climate Models (Invited), Asia Oceania Geosciences Society, the 10th Annual Meeting, June 23-28, Brisbane.

[6] Sun, F., M. L. Roderick, and G. D. Farquhar (2013), Droughts and floods with global warming -- a perspective of surface water hydrology (Invited), EGU General Assembly, Vienna, Austria, 7-12 April.

[5] Farqhuar, G.D., F. Sun, and M.L. Roderick (2013), Relating variations in runoff to variations in climatic conditions and catchment properties (Invited), EGU General Assembly, 7-12 April, Vienna.

[4] Sun, F., M. L. Roderick, and G. D. Farquhar (2011), A new approach to evaluating precipitation projections (Invited), International Symposium on Environmental Changes and Efficient Use of Agricultural Resources, Shijiazhuang, China, 20-22 October.

[3] Roderick M.L., F. Sun, and G.D. Farqhuar (2011), Climate Variability versus Climate Change – How can you tell the difference? (Keynote address), IUGG General Assembly, Melbourne, 28 June.

[2] Roderick, M.L., F. Sun, W.H. Lim, and G.D. Farqhuar (2011), Robust responses of the terrestrial component of the hydrological cycle to global warming, (Invited), Memorial Session in Honour of Professor Jim Dooge (invited speakers only), EGU General Assembly, 3-8 April.

[1] Farquhar, G.D., F. Sun, M. L Roderick, and W. H. Lim (2010), Global change, soil water content, stomatal behavior and the statistics of rainfall (Invited), AGU Fall Meeting, San Francisco, CA- 13-17 Dec. ^[2]