田富强

长聘教授

Email: tianfq@tsinghua.edu.cn

电话:010-62773396

传真:010-62796971

通信地址:北京市海淀区清华大学新水利馆330室

邮编:100084

教育背景

2002/9–2006/7 清华大学 水利工程 博士学位

1998/9–2000/7 清华大学 水文学及水资源 硕士学位

1993/9–1998/7 清华大学 水利水电工程 学士学位

工作履历

2019-, 清华大学水利水电工程系,长聘教授;

2017-2019, 清华大学水利水电工程系,长聘副教授;

2000-2017, 清华大学水利水电工程系,助教/讲师/副教授;

2007-2008, 美国伊力诺依大学厄版纳-香槟分校(UIUC),访问学者;

开设课程

1.《高等水文学》,秋季学期,研究生

2.《水文学原理与应用》,秋季学期,本科生

研究领域

高寒区、干旱区和半干旱区水文规律,水文机理实验观测,流域水文预报,社会水文学,国际河流水资源管理

科研项目

国家自然科学基金重大研究计划集成项目,西南河流源区径流变化机理和未来趋势

澜湄合作专项基金项目,澜湄流域洪旱评估和预报

国家自然科学基金国际合作与交流项目,中国和智利流域水-能源-食物耦合系统比较研究:协调水电和其他竞争性用水

国家自然科学基金杰出青年基金项目,流域水文模拟及预报

兵团科技攻关项目,兵团向南发展水资源支撑的关键问题研究

国家自然科学基金重大研究计划重点支持项目,耦合多元示踪和水文模型的高寒流域径流水源解析研究

国家自然科学基金优秀青年科学基金项目,水文学及水资源

学术兼职

2020至今,国际水文科学协会中国委员会水资源系统分委员会主席

2020至今,国际灌排委员会气候变化工作组副主席

2018至今,《Journal of Hydrology》期刊 编委

2016至今,中国国家灌排委员会副秘书长

2013至今,《Hydrology and Earth System Science》期刊 编辑

2019-2021,国际水文科学协会(IAHS)Panta Rhei十年计划(2013-2022) 主席

奖励与荣誉

2019年,获国际灌排委员会(ICID)节水技术奖

2017年,寒旱区流域水资源系统响应与基于生态经济的水资源合理调控,教育部科技进步一等奖(2)

2016年,干旱区膜下滴灌棉田水盐综合调控技术,大禹水利科学技术奖一等奖(1)

2016年,变化环境下流域生态水文响应机理与规律,教育部自然科学一等奖(5)

学术成果

1.Yang, L., Yang, Y., Villarini, G., Li, X., Hu, H., Wang, L., . . . Tian, F. (2021). Climate More Important for Chinese Flood Changes Than Reservoirs and Land Use. Geophysical Research Letters, 48(11), N/a.

2.Lu, Y., Tian, F., Guo, L., Borzi, I., Patil, R., Wei, J., . . . Sivapalan, M. (2021). Socio-hydrologic modeling of the dynamics of cooperation in the transboundary Lancang-Mekong River. Hydrology and Earth System Sciences, 25(4), 1883-1903.

3.Wei, J., Wei, Y., Tian, F., Nott, N., De Witt, C., Guo, L., & Lu, Y. (2021). News media coverage of conflict and cooperation dynamics of water events in the Lancang-Mekong River basin. Hydrology and Earth System Sciences, 25(3), 1603-1615.

4.Wang L., Han S., Tian, F. (2020). Comparison of formulating apparent potential evaporation with pan measurements and Penman methods, Journal of Hydrology, 592,125816

5.Wang L., Tian, F., Han S., Wei Z. (2020). Determinants of the asymmetric parameter in the generalized complementary principle of evaporation, Water Resources Research, 56, e2019WR026570

6.Do, P., Tian, F., Zhu, T., Zohidov, B., Ni, G., Lu, H., & Liu, H. (2020). Exploring synergies in the water-food-energy nexus by using an integrated hydro-economic optimization model for the Lancang-Mekong River basin. Science of The Total Environment, 137996

7.Tian, F. , Lu, Y. , Hu, H. , Kinzelbach, W. , & Sivapalan, M. . (2019). Dynamics and driving mechanisms of asymmetric human water consumption during alternating wet and dry periods. International Association of Scientific Hydrology Bulletin, 64(5), 507-524.

8.Baldassarre, G. D. , Sivapalan, M. , Rusca, M. , Cudennec, C. , Garcia, M. , Kreibich, H. , Megan Konar, Elena Mondino, Johanna Mård, Saket Pande, Matthew R. Sanderson, Tian F., Viglione A., Wei J., Wei Y., David J. Yu, Veena Srinivasan & Günter Blöschl. (2019). Sociohydrology: scientific challenges in addressing the sustainable development goals. Water Resources Research, 55.

9.Xu, R., Hu, H., Tian, F., Li, C., & Khan, M. Y. A. (2019). Projected climate change impacts on future streamflow of the Yarlung Tsangpo-Brahmaputra River. Global and Planetary Change.

10.Han, S., & Tian, F. (2018). Derivation of a sigmoid generalized complementary function for evaporation with physical constraints. Water Resources Research, 54, 5050–5068.

11.Tie Q., Hu H., Tian F., Holbrook N. M. (2018). Comparing different methods for determining forest evapotranspiration and its components at multiple temporal scales. Science of the Total Environment, 633 12–29.

12.Tian F., Hou S., Yang L., Hu H., Hou A. (2018) How Does the Evaluation of the GPM IMERG Rainfall Product Depend on Gauge Density and Rainfall Intensity? Journal of Hydrometeorology, 19(2):339-349.

13.Xu, R., Tian, F., Yang, L., Hu, H., Lu, H., & Hou, A. (2017). Ground validation of GPM IMERG and TRMM 3B42V7 rainfall products over southern Tibetan Plateau based on a high‐density rain gauge network. Journal of Geophysical Research. Atmospheres, 122(2), 910-924.

14.Tie Q., Hu H., Tian F. (2017). Huade Guan, Henry Lin. Environmental and physiological controls on sap flow in a subhumid mountainous catchment in North China, Agricultural and Forest Meteorology 240 46–57.

15.Zhong, Y., Tian, F., Hu, H., Grey, D., & Gilmont, M. (2016). Rivers and reciprocity: Perceptions and policy on international watercourses. Water Policy, 18(4), 803-825.

16.He, Z., Tian, F., Gupta, H., Hu, H., & Hu, H. (2015). Diagnostic calibration of a hydrological model in a mountain area by hydrograph partitioning. Hydrology and Earth System Sciences, 19(4), 1807-1826.

17.Liu, D., Tian, F., Lin, M., & Sivapalan, M. (2015). A conceptual socio-hydrological model of the co-evolution of humans and water: Case study of the Tarim River basin, western China. Hydrology and Earth System Sciences, 19(2), 1035-1054.

18.He, Z., Parajka, J., Tian, F., & Bloeschl, G. (2014). Estimating degree-day factors from MODIS for snowmelt runoff modeling. Hydrology and Earth System Sciences, 18(12), 4773-4789.

19.Zhang, Z., Hu, H., Tian, F., Yao, X., & Sivapalan, M. (2014). Groundwater Dynamics under Water Saving Irrigation and Implications for Sustainable Water Management in an Oasis: Tarim River Basin of Western China. Hydrology and Earth System Sciences Discussions, 11(2), 1777-1820.

20.Liu, Y., Tian, F., Hu, H., & Sivapalan, M. (2014). Socio-hydrologic perspectives of the co-evolution of humans and water in the Tarim River basin, Western China: The Taiji-Tire model. Hydrology and Earth System Sciences, 18(4), 1289-1303.

21.Yang, L., Tian, F., Smith, J., & Hu, H. (2014). Urban signatures in the spatial clustering of summer heavy rainfall events over the Beijing metropolitan region. Journal of Geophysical Research. Atmospheres, 119(3), 1203-1217.

22.Zhang Z., Tian F., Hu H., and Yang P.(2014). A comparison of methods for determining field evapotranspiration: photosynthesis system, sap flow, and eddy covariance. Hydrol. Earth Syst. Sci., 18, 1053–1072.

23.Sun Y., Tian F., Hu H., Yang L.(2014). Exploring the spatial variability of contributions from climate variation and change in catchment properties to streamflow decrease in a mesoscale basin by three different methods, Journal of Hydrology, 2014, Volume: 508 Pages: 170-180, China. J. Hydrol., 508:170-180.

24.Liu, H., Tian, F., Hu, H., Hu, H., & Sivapalan, M. (2013). Soil moisture controls on patterns of grass green-up in Inner Mongolia: An index based approach. Hydrology and Earth System Sciences, 17(2), 805-815.

25.Liu D., Tian F., Hu H., Hu H.(2012). The role of run-on for overland flow and characteristics of runoff generation in Loess Plateau, China. Hydrological Sciences Journal, 57(6):1-11.

26.Liu D., Tian F., Hu H., Lin M., Cong Z.(2012). Ecohydrological evolution model on riparian vegetation in hyper-arid regions and its validation in the lower reach of Tarim River. Hydrological Processes, 26:2049-2060.

27.Tian F., Li H., Sivapalan M.(2012). Model diagnostic analysis of seasonal switching of runoff generation mechanisms in the Blue River basin, Oklahoma. Journal of Hydrology, 418-419, 136-149.

28.Zhou M., Tian F., Lall U., Hu H.(2011). Insights from a joint analysis of Indian and Chinese monsoon rainfall data. Hydrol. Earth Syst. Sci., 15, 2709-2715.

29.Mou L., Tian F., Hu H., Sivapalan M.(2008). Extension of the Representative Elementary Watershed approach for cold regions: constitutive relationships and an application. Hydrology and Earth System Science, 12:565-585.

30.Tian F., Hu H., Lei Z., Sivapalan M.(2006). Extension of the Representative Elementary Watershed Approach for cold regions via explicit treatment of energy related processes. Hydrology and Earth System Science, 10:619-644.

31田富强, 徐冉, 南熠, 李琨彪, & 贺志华. (2020). 基于分布式水文模型的雅鲁藏布江径流水源组成解析. 水科学进展, 31(3), 324-336.

32.侯时雨, 田富强, 陆颖, 倪广恒, 卢麾, 刘慧, 魏靖. (2020) 澜沧江-湄公河流域水库联合调度防洪作用.水科学进展:1-11 http://kns.cnki.net/kcms/detail/32.1309.P.20200903.1411.002.html.


Baidu
sogou