个人简况　　

2005、2007年分别获清华大学水利水电工程系本科与硕士学位，2010年获英国埃克塞特大学水资源研究中心博士学位，之后在法国里昂国立应用科学学院从事科研工作。2015年底在中国科学院地理科学与资源研究所工作至今。主要从事城市水资源管理与可持续发展、城镇化与资源环境交互关系等方面研究。在Water Resources Research, Water Research, Landscape and Urban Planning, Environmental Modeling and Software 等期刊发表SCI/SSCI30余篇。

代表性论著：

1)       Sun S., Fu G., Bao C., Fang C. (2019 )Identifying hydro-climatic and socioeconomic forces of water scarcity through structural decomposition analysis: A case study of Beijing city. Science of the Total Environment. 687:590-600.

2)       Sun S., Bao C., Tang Z (2019 ) Tele-connecting water consumption in Tibet: Patterns and socioeconomic driving factors for virtual water trades. Journal of Cleaner Production.233: 1250-1258.

3)       Sun S., Fang C. (2019) Factors governing variations of provincial consumption-based water footprints in China: An analysis based on comparison with national average. Science of the Total Environment. 654: 914-923

4)       Sun S. (2019) Water footprints in Beijing, Tianjin and Hebei: A perspective from comparisons between urban and rural consumptions in different regions. Science of the Total Environment. 647: 507-515.

5)       Fang C. Sun S.^*, Jia S., Li Y. (2018) Groundwater Level Analysis Using Regional Kendall Test for Trend with Spatial Autocorrelation. Groundwater. doi: 10.1111/gwat.12800

6)       Li G., Sun S.^*, Fang C. (2018) The varying driving forces of urban expansion in China: Insights from a spatial-temporal analysis. Landscape and Urban Planning. 174: 63-77.

7)       Sun S., Fang C. (2017) Water use trend analysis: A non-parametric method for the environmental Kuznets curve detection. Journal of Cleaner Production. DOI: 10.1016/j.jclepro.2017.10.212(IF= 5.651)

8)       Sun S., Fang C., Lv J. (2017) Spatial inequality of water footprint in China: A detailed decomposition of inequality from water use types and drivers. Journal of Hydrology. 553:398-407

9)       Li G., Sun S.^* (2017) Changing PM2.5 concentrations in China from 1998 to 2014. Environment and Planning A. DOI: 10.1177/0308518X17739008. (SSCI, IF=2.152)

10)   Sun S., Leonhardt G., Sandoval S., Bertrand-Krajewski J.L., Rauch W. (2017) A Bayesian method for missing rainfall estimation using a conceptual rainfall–runoff model. Hydrological Sciences Journal. DOI: 10.1080/02626667.2017.1390317

11)   Sun S., Barraud S., Branger F., Braud I., Castebrunet H. (2016) Urban hydrologic trend analysis based on rainfall and runoff data analysis and conceptual model calibration. Hydrological Processes. 31(6): 1349-1359.

12)   Sun S., Barraud S, Castebrunet H., Aubin J.-B., Marmonier P. (2015) Long-term stormwater quantity and quality analysis using continuous measurements in a French urban catchment. Water Research. 85: 432-442.

13)   Sun S., Yan H., Kouyi G.L., (2014) Artificial neural network modeling in simulation of complex flow at open channel junctions based on large data sets. Environmental Modelling & Software. 62: 178-187.

14)   Sun S., Bertrand-Krajewski J.-L. (2013). Separately accounting for uncertainties in rainfall and runoff: Calibration of event based conceptual hydrological models in small urban catchments using Bayesian method. Water Resources Research. 49: 1-14.

15)   Sun S., Bertrand-Krajewski J.-L. (2013). Input variable selection and calibration data selection for storm water quality regression models. Water Science and Technology. 68(1): 50-58.

16)   Sun S., Khu S.-T., Djordjevic S. (2013), Sampling rainfall events: A novel approach to generate large correlated samples. Hydrology Research. 44(2): 351-361.

17)   Sun S., Fu G., Djordjevi？ S., Khu S.-T. (2012) Separating aleatory and epistemic uncertainties: probabilistic sewer flooding evaluation using probability box. Journal of Hydrology. 420-421: 360-372.

18)   Sun S., Bertrqnd-Krajewski J.L. (2012) On calibration data selection: the case of stormwater quality regression models. Environmental Modelling & Software. 35: 61-73.

19)   Sun S., Djordjevic S., Khu S.-T. (2011), Decision making in flood risk based storm sewer network design. Water Science and Technology. 64(1): 247-254.

20)   Sun S., Djordjevic S., Khu S.-T. (2011), A general framework for flood risk-based storm sewer network design. Urban Water Journal. 8(1): 13-27.

21)   Sun S., Khu S.-T., Kapelan Z., Djordjevic S. (2011), A fast approach for multiobjective design of water distribution networks under demand uncertainty. Journal of Hydroinformatics. 13(2): 143-152.