人才汇聚
研究员
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姓名:
陈学龙
性别:
学历:
博士
专家类别:
研究员
电话:
传真:
电子邮箱:
x.chen@itpcas.ac.cn
职称:
研究员
通讯地址:
北京市朝阳区林萃路16号院3号楼
简介

2020年03月-今,         中国科学院青藏高原研究所,研究员

2018年02月-2020年03月,中国科学院青藏高原研究所,项目研究员

2013年11月-2017年12月,荷兰特文特大学,Researcher

2009年12月-2013年11月,荷兰特文特大学,博士

2006年07月-2011年07月,中国科学院青藏高原研究所,博士

2003年07月-2006年07月,兰州大学,大气科学学院,实验员

1999年07月-2003年07月,兰州大学,大气科学,学士 

研究方向

陆气耦合及其参数化

获奖及荣誉
承担科研项目情况

1.利用改进的能量平衡模型计算青藏高原时空连续的每日蒸发量(2019-2023), 62万,主持;

2.雅鲁藏布大峡谷水汽通道科考分队(2018-2023),320万,主持;

3.泛第三极地区多圈层地气相互作用过程及其影响区域能量和水分循环的机制研究,330万,骨干;

代表论著

代表论著:

1.       Chen X.*, Su Z., Ma Y., Trigo I. and Gentine P., 2021. Remote Sensing of Global Daily Evapotranspiration based on a Surface Energy Balance Method and Reanalysis Data. Journal of Geophysical Research: Atmospheres, 126(16): e2020JD032873.

2.       Chen X.*, Su Z., Ma Y., Elizabeth M, 2019, Optimization of a remote sensing energy balance method over different canopy applied at global scale,Agricultural and Forest Meteorology, 279: 107633.

3.       Chen X.*, William J., Su Z., 2019, A Column Canopy‐Air Turbulent Diffusion Method for Different Canopy Structures, Journal of Geophysical Research: Atmospheres, 2019.01.15, 124.

4.       Chen X.*, Su Z., Ma Y., Cleverly J., Liddell M., 2017: An accurate estimate of monthly mean land surface temperatures from MODIS clear-sky retrievals, J. Hydrometeor., 18, 2827–2847.

5.       Chen X.*, Bojan S., Rotach M., A el JA, Su Z., Ma Y., Li M., 2016: Reasons for the Extremely High-Ranging Planetary Boundary Layer over the Western Tibetan Plateau in Winter, Journal of Atmospheric Science, 73, 2021–2038.

6.       Chen X.*, Su Z., Ma Y., Liu S., Yu Q., and Xu Z., 2014: Development of a 10 year (2001–2010) 0.1° dataset of land-surface energy balance for mainland China, Atmos. Chem. Phys., 14, 13097–13117.

7.       Chen X, A el JA, Su Z, de la Torre L, Kelder H, et al., 2013: The Deep Atmospheric Boundary Layer and Its Significance to the Stratosphere and Troposphere Exchange over the Tibetan Plateau, PLoS ONE 8(2).

8.       Chen X*., Su Z., Ma Y., Yang K., and Wang, B., 2013: Estimation of surface energy fluxes under complex terrain of Mt. Qomolangma over the Tibetan Plateau, Hydrology and Earth System Sciences, 17, 1607-1618.

9.       Chen X.*, Su, Z., Ma, Y., et. al., 2012: An Improvement of Roughness Height Parameterization of the Surface Energy Balance System (SEBS) over the Tibetan Plateau, Journal of Applied Meteorology and Climatology,52(3): 623-633.

10.     Chen X.*, Su Z., Ma, Y., Sun F., 2012, Analysis of land-atmosphere interactions over the north region of Mt. Qomolangma (Mt. Everest), Arctic Antarctic and Alpine Research 44(4): 412-422.

11.     Chen X.*, Ma Y., H. Kelder, Su Z., and Yang K., 2011: On the behavior of the tropopause folding events over the Tibetan Plateau, Atmos. Chem. Phys., 11, 5113–5122.

合著文章:

12.     Su Z., Ma Y.*, Chen X., et al., 2021, Monitoring water and energy cycles at climate scale in the Third Pole Environment (CLIMATE-TPE), Remote Sensing, 13(18), 3661, doi:10.3390/rs13183661.

13.     Sl?ttberg N., Lai H., Chen X., Ma Y., Chen D., 2021, Spatial and temporal patterns of planetary boundary layer height during 1979–2018 over the Tibetan Plateau using ERA5. International Journal of Climatology,1-18

14.     Han C., Ma Y., Wang B., Zhong L., Ma W., Chen X., and Su Z., 2021, Long term variations of actual evapotranspiration over the Tibetan Plateau. Earth Syst. Sci. Data, 2021, 1-32.

15.     Lai Y., Chen X.*, Ma Y.*, Chen D. and Zhaxi S., 2021: Impacts of the westerlies on planetary boundary layer growth over a valley on the north side of the central Himalayas. Journal of Geophysical Research: Atmospheres, 126, e2020JD033928.

16.     Yuan L., Ma Y.*, Chen X.*, Wang Y. and Li Z. 2021: An enhanced MOD16 evapotranspiration model for the Tibetan Plateau during the unfrozen season. Journal of Geophysical Research: Atmospheres, 126(7), e2020JD032787.

17.     González-Dugo M., Chen X., Andreu A., Carpintero E., Gómez-Giraldez P., Carrara A. and Su Z., 2021: Long-term water stress and drought monitoring of Mediterranean oak savanna vegetation using thermal remote sensing. Hydrology and Earth System Sciences, 25, 755–768.

18.     Ma Y., Hu Z., Xie Z., Ma W., Wang B., Chen X., Li M., Zhong L., Sun F., Gu L., Han C., Zhang L., Liu X., Ding Z., Sun G., Wang S., Wang Y. and Wang Z., 2020: A long-term (2005–2016) dataset of hourly integrated land–atmosphere interaction observations on the Tibetan Plateau. Earth Syst. Sci.12(4), 2937-2957.

19.     Tegegne E., Ma Y.*, Chen X.*, Ma W., Wang B., Ding Z. and Zhu Z., 2020: Estimation of the distribution of the total net radiative flux from satellite and automatic weather station data in the Upper Blue Nile basin, Ethiopia. Theoretical and Applied Climatology 143, 587–602.

20.     Yin Z., Wang X., Ottlé C., Zhou F., Guimberteau M., Polcher J., Peng S., Piao S., Li L., Bo Y., Chen X., Zhou X., Kim H. and Ciais P., 2020: Improvement of the Irrigation Scheme in the ORCHIDEE Land Surface Model and Impacts of Irrigation on Regional Water Budgets Over China. Journal of Advances in Modeling Earth Systems, 12(4), e2019MS001770.

21.     Huang Y., Guo H., Chen X., Chen Z., van der Tol C., Zhou Y., Tang J.,2019: Meteorological controls on evapotranspiration over a coastal salt marsh ecosystem under tidal influence, Agricultural and Forest Meteorology, 279, 107755.

22.     Ge, J., W. Guo, A. J. Pitman, M. G. D. Kauwe, Chen X., and Fu C., 2019: The non-radiative effect dominates local surface temperature change caused by afforestation in China, J. Climate, 32, 4445–4471.

23.     Wang, Q., Veldea R., Ferrazzolib P, Chen X., Bai X., Su Z., 2019, Mapping soil moisture across the Tibetan Plateau plains using Aquarius active and passive L-band microwave observations. International Journal of Applied Earth Observation and Geoinformation, 77: 108-118.

24.     Xu M., Kang S.*, Chen X.*, Wu H., Wang X, Su Z., 2018: Detection of hydrological variations and their impacts on vegetation from multiple satellite observations in the Three-River Source Region of the Tibetan Plateau, Science of The Total Environment, 639: 1220-1232.

25.     Han, C., Ma, Y., Chen, X. and Su, Z., 2017, Trends of land surface heat fluxes on the Tibetan Plateau from 2001 to 2012, Int. J. Climatol, 37: 4757-476.

26.     González M. P., Chen X., et al., 2017: Evolution of evapotranspiration and water stress of oak savanna vegetation in the Iberian Peninsula (2001-2015), Spanish Journal of Remote Sensing, 2017(50): 10.

27.     LI, M, Su Z., Ma Y.; Chen X.; Zhang L.; Hu Z., 2016: Characteristics of land-atmosphere energy and turbulent fluxes over the plateau steppe in central Tibetan Plateau, Sciences in Cold and Arid Regions, 02: 103~115.

28.     Peng, J., A. Loew, Chen X., Y. Ma, and Z. Su, 2016: Comparison of satellite based evapotranspiration estimates over the Tibetan Plateau, Hydrology and Earth System Sciences, 20, 3167-3182.

29.     Wang B., Ma Y., Chen X., et al., 2015: Observation and simulation of lake‐air heat and water transfer processes in a high‐altitude shallow lake on the Tibetan Plateau, J. Geophys. Res. Atmos., 120, 12327–12344.

30.     Han C., Ma Y., Chen X, Su Z., 2015: Estimates of land surface heat fluxes of the Mt. Everest region over the Tibetan Plateau utilizing ASTER data, Atmospheric Research,168,180-190.

31.     Tian X., van der Tol, C., Su Z., Li Z., Chen E., Li X., Yan M., Chen X., et al., 2015: Simulation of forest evapotranspiration using time - series parameterization of the surface energy balance system (SEBS) over the Qilian Mountains, Remote Sensing, 7 (2015)12. 15822-15843.                                     

32.     Han C., Ma Y., Su Z., Chen X., et. al., 2014: Estimates of effective aerodynamic roughness length over mountainous areas of the Tibetan Plateau, Quarterly Journal of the Royal Meteorological Society, 141, 689,1457-1465.                     

33.     Li M., Babel W., Chen X., Zhang L., Sun F., et al., 2014: A 3-yr data set of sensible and latent heat fluxes on the Tibetan Plateau derived by eddy-covariance measurements, Theoretical and Applied Climatology, 1-13.                           

34.     Su Z., Fernández, D., Timmermans, J., Chen, X., et.al., 2014: First results of the earth observation Water Cycle Multi-mission Observation Strategy (WACMOS), International Journal of Applied Earth Observation and Geoinformation,26:270-285.    

35.     Timmermans W., Christiaan V. der T., Timmermans, J., Ucer M., Chen X. et al. , 2014: An overview of the Regional Experiments for Land-atmosphere Exchanges 2012 (REFLEX 2012) Campaign, Acta Geophysica, DOI: 10.2478/s11600-014-0254-1

36.     Biermann, T, Babel, W, Ma, W, Chen, X, et al., 2013: Turbulent flux observations and modelling over a shallow lake and a wet grassland in the Nam Co basin, Tibetan Plateau, Theoretical and Applied Climatology, 1-16.

37.     Ma, Y., L. Zhong, B. Wang, W. Ma, Chen X., and 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. Chem. Phys., 11, 10461–10469.

38.     Ma Y., Wang Y., Wu R., Hu Z., Yang K., Li M., W. Ma, L. Zhong, F. Sun, Chen X., Z. Zhu, S. Wang, and H. Ishikawa, 2009: Recent advances on the study of atmosphere-land interaction observations on the Tibetan Plateau, Hydrology and Earth System Sciences, 13, 1103-1111.