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Talent details

Name:Binbin Wang
Title & Affiliation:Ph.D, Professor
Tel:
Email:wangbinbin@itpcas.ac.cn
Homepage in Chinese:http://sourcedb.itpcas.cas.cn/cn/expert/202010/t20201027_5723060.html
Address:Building 3, Courtyard 16, Lincui Road, Chaoyang District, Beijing 100101, China

Education and Appointments

Education
Ph.D, Atmosphere Physics and Atmospheric Environment, Key Laboratory of Environment Changes and Land Surface Processes, Institute of Tibetan Plateau Research, Chinese Academy of Sciences, 2008.09 - 2014.12;
Joint training of doctoral students, Hydrometeorology, Department of Water Resources, University of Twente, 2012.12 - 2013.12;
B.S., Geography Information System, College of environment and water conservancy, University of Zhengzhou, 2004.09 - 2008.06;
Appointments
Professor, Key Laboratory of Environment Changes and Land Surface Processes, Institute of Tibetan Plateau Research, Chinese Academy of Sciences, 2020.10 - Now;
Joint researchers, Department of Water Resources, University of Twente, 2016.03 - 2018.03;
Post-Doctoral Fellow, Key Laboratory of Environment Changes and Land Surface Processes, Institute of Tibetan Plateau Research, Chinese Academy of Sciences, 2015.01 - 2020.09

Research Interest

Research Interests: The land-atmosphere interaction processes, Observation and modeling of lake processes, Regional water balance and water cycle
Research Fields: The observation, simulation and satellite application of lake processes on the Tibetan Plateau; The regional climate effects of high-elevation lakes.

Selected Publications

1. Wang, B.*, Y. Ma*, Z. Su, Y. Wang and W. Ma. Quantifying the evaporation amounts of 75 high-elevation large dimictic lakes on the Tibetan Plateau. Science Advances, 2020, 6, eaay8558.   

2. Ma, Y.*, Z. Hu, Z. Xie*, W. Ma, B. Wang*, X. Chen, M. Li, L. Zhong, F. Sun, L. Gu, C. Han, L. Zhang, X. Liu, Z. Ding, G. Sun, S. Wang, Y. Wang & Z. Wang (2020) A long-term (2005–2016) dataset of hourly integrated land–atmosphere interaction observations on the Tibetan Plateau. Earth Syst. Sci. Data, 12, 2937-2957. 

3. Wang, Y., Yang, K.*, Zhou, X., Chen D. L., Ouyang, L., Chen, Y. Y., Wang, B. B. 2020. Synergy of orographic drag parameterization and high resolution greatly reduces biases of WRF-simulated precipitation in central Himalaya, Climate Dynamics, 54: 1729-1740. 

4. Joshi, B., Ma Yaoming*W.Ma, M.Sigdel, B.Wang, S.Subba, 2020, Seasonal and Diurnal Variations of Carbon Dioxide and Energy Fluxes over Three Land Cover Types of Nepal, Theoretical and Applied Climatology, 139:415430. 

5. Wang, B.*, Y. Ma, Y. Wang, Z. Su and W. Ma, 2019. Significant differences exist in lake-atmosphere interactions and the evaporation rates of high-elevation small and large lakes, Journal of Hydrology, 573:220-234.  

6. Wang, B.*, Y. Ma*, W. Ma, Z. Su*, and X. Dong, 2019. Evaluation of ten methods for estimating evaporation in a small high-elevation lake on the Tibetan Plateau, Theoretical and Applied Climatology, 136:1033-1045.    

7. Wang, Y., Yang, K.*, Zhou, X., Wang, B., Chen, D., Lu, H., et al, 2019. The formation of a drybelt in the north side of central Himalaya Mountains, Geophysical Research Letters, 46:2993-3000.  

8. Ram Hari Acharya, Madan Sigdel*, Yaoming Ma*, and Binbin Wang, 2019. Diurnal and seasonal variation of heat fluxes over an agricultural field in southeastern Nepal, Theor Appl Climatol, 137:2949-2960. 

9. Luintel,N., W.Ma*, Ma Yaoming, B.Wang, S. Sunil, 2019, Spatial and temporal variation of daytime and nighttime MODIS land surface temperature across NepalAtmospheric and Oceanic Science Letters, 12:305-312. 

10. Zhang, L., Ma Yaoming*, W. Ma, and B. Wang, 2018, Comparison of different generation mechanisms of free convection between two stations on the Tibetan Plateau. Advances in Atmospheric Sciences, 35:1137-1144. 

11. Wang, B.*, Y. Ma, W. Ma, and Z. Su, 2017. Physical controls on half-hourly, daily and monthly turbulent flux and energy budget over a high-altitude small lake on the Tibetan Plateau, Journal of Geophysical Research: Atmospheres, 122:2289-2303. 

12. Ma, Y.*, W. Ma, L. Zhong, Z. Hu, M. Li, Z Zhu, C. Han, B. Wang, and X. Liu, 2017. Monitoring and Modeling the Tibetan Plateau’s climate system and its impact on East Asia. Sci. Rep., 7:44574. 

13. Fangfang HUANG, W. Ma.*, Binbin WANG, Zeyong HU, Yaoming MA, Genhou SUN, Zhipeng XIE, Yun LIN, 2017. Air Temperature Estimation with MODIS Data over the Northern Tibetan Plateau, Adv. Atmos. Sci., 34:650-662. 

14. Ma, N., J. Szilagyi, G.-Y. Niu, Y. Zhang, T. Zhang, B. Wang, and Y. Wu, 2016, Evaporation variability of Nam Co Lake in the Tibetan Plateau and its role in recent rapid lake expansion, Journal of Hydrology, 537:27-35. 

15. Amatya, P., Y. Ma*, C. Han, B. Wang, and L. Devkota, 2016. Mapping regional distribution of land surface heat fluxes on the southern side of the central Himalayas using TESEBS, Theor Appl Climatol, 124:835-846. 

16. Wang. B.*, Y. Ma, X. Chen, W. Ma, Z. Su, and M. Menenti, 2015. Observation and simulation of lake-air heat and water transfer processes in a high-altitude shallow lake on the Tibetan Plateau, Journal of Geophysical Research: Atmospheres, 120:12,327-12,344.  

17. Amatya, P. M., Y. Ma*, C. Han, B. Wang, and L. P. Devkota, 2015. Recent trends (2003-2013) of land surface heat fluxes on the southern side of the central Himalays, Nepal, J. Geophys. Res. Atmos., 120:11,957-11,970. 

18. Amatya, P. M., Y. Ma*, C. Han, B. Wang, and L. P. Devkota, 2015. Estimation of net radiation flux distribution on the southern slopes of the central Himalayas using MODIS data, Atmospheric Research, 154:146-154. 

19. M. Li*, Wolfgang Babel, X. Chen, L. Zhang, F. Sun, B. Wang, Y. Ma, Z. Hu, Thomas Foken, 2015. A 3-year dataset of sensible and latent heat fluxes from the Tibetan Plateau, derived using eddy covariance measurements, Theor Appl Climatol, 122: 457-469 

20. Ma, Y.*, Z. Zhu, L. Zhong, B. Wang, C. Han, Z. Wang, Y. Wang, L. Lu, P. M. Amatya, W. Ma, Z. Hu, 2014. Combining MODIS, AVHRR and in situ data for evapotranspiration estimation over heterogeneous landscape of the Tibetan Plateau, Atmospheric Chemistry and Physics, 14:1507-1515. 

21. Ma, Y.*, C. Han, L. Zhong, B. Wang, Z. Zhu, Y. Wang, L. Zhang, C. Meng, C. Xu, and P. Amatya, 2014. Using MODIS and AVHRR data to determine regional surface heating field and heat flux distributions over the heterogeneous landscape of the Tibetan Plateau, Theor Appl Climatol, 117:643-652. 

22. Chen X.*, Z. Su, Y.M. Ma, K. Yang, B. Wang, 2013. Estimation of surface energy fluxes under complex terrain of Mt. Qomolangma over the Tibetan Plateau, Hydrol. Earth Syst. Sci., 17:1607-1618. 

23. Ma Y.*, B. Wang, L. Zhong, and W. Ma, 2012. The regional surface heating field over the heterogeneous landscape of the Tibetan Plateau using MODIS and in-situ data. Adv. Atmos. Sci., 29:47-53. 

24. Wang. B, Ma Y M*, and Ma W Q, 2012. Estimation of land surface temperature retrieved from EOS/MODIS in Naqu area over Tibetan Plateau. Journal of Remote Sensing, 16:1289-1309. 

25. Ma Y.*, L. Zhong, B. Wang, W. Ma, X. Chen, M. Li, 2011. Determination of land surface heat fluxes over heterogeneous landscape of the Tibetan Plateau by using the MODIS and in situ data. Atmos. Chm. Phys, 11:10461-10469.