男,1983年9月生,安徽怀远人,博士,研究员,博士生导师,曾获“国家优秀青年科学基金”资助、国家自然科学奖二等奖(个人排名第3)等科技奖励。
2005年和2007年先后获得武汉大学学士和硕士学位,2011年获得中国科学院地理科学与资源研究所博士学位。2012/09-2014/11期间,任助理研究员。2014/12-2017/11,任副研究员。2017/12-至今,任研究员。
研究领域和方向
主要从事地表能量平衡、蒸散发、土壤水分、初级生产力、水分利用效率等能-水-碳平衡要素的遥感反演、验证及应用研究。研究方向包括热红外遥感、水循环遥感、全球变化遥感、大数据分析与遥感建模等。
科研业绩
长期从事地表蒸散发遥感定量反演的基础理论与方法研究。围绕蒸散发遥感建模、模型参数化、时间尺度扩展、真实性检验等,共发表科技论文110余篇,其中SCI论文68篇,获授权国家发明专利30项、实用新型专利2项,登记软件著作权10项,参与制定国家标准5项。主持国家自然科学基金项目5项、中国科学院战略性先导科技专项课题、国家重点研发计划专题等项目/课题。获国家自然科学奖二等奖、教育部自然科学奖二等奖、北京市自然科学奖二等奖等国家及省部级科技奖励6项、学会科技奖励3项、中科院优秀博士学位论文等荣誉称号。
代表性学术论文
[1] Peng, Z., *Tang, R. L., Liu, M., Jiang, Y., & Li, Z. L. (2023). Coupled estimation of global 500m daily aerodynamic roughness length, zero-plane displacement height and canopy height. Agricultural and Forest Meteorology, 342, 109754.
[2] Wang, J., *Tang, R. L., Jiang, Y., Liu, M., & Li, Z. L. (2023). A practical method for angular normalization of global MODIS land surface temperature over vegetated surfaces. ISPRS Journal of Photogrammetry and Remote Sensing, 199, 289-304.
[3] Hu, Y., *Tang, R. L., *Jiang, X., Li, Z. L., Jiang, Y., Liu, M., Gao, C., & Zhou, X. (2023). A physical method for downscaling land surface temperatures using surface energy balance theory. Remote Sensing of Environment, 286, 113421.
[4] Tang, R. L., Li, Z. L., Liu, M., Jiang, Y., & Peng, Z. (2022). A moisture-based triangle approach for estimating surface evaporative fraction with time-series of remotely sensed data. Remote Sensing of Environment, 280, 113212.
[5] Jiang, Y., *Tang, R. L., & Li, Z. L. (2022). A framework of correcting the angular effect of land surface temperature on evapotranspiration estimation in single-source energy balance models. Remote Sensing of Environment, 283, 113306.
[6] Liu, M., *Tang, R. L., Li, Z. L., Duan, S., Gao, M., Xu, Z., & Song, L. (2022). Separating soil evaporation from vegetation transpiration by remotely sensed one-phase and two-phase trapezoids. Agricultural and Forest Meteorology, 327, 109215.
[7] Huang, L., Lin, X., Jiang, S., Liu, M., Jiang, Y., Li, Z. L., & *Tang, R. L. (2022). A two-stage light use efficiency model for improving gross primary production estimation in agroecosystems. Environmental Research Letters, 17, 104021.
[8] Jiang, Y., *Tang, R. L., & Li, Z. L. (2022). A physical full-factorial scheme for gap-filling of eddy covariance measurements of daytime evapotranspiration. Agricultural and Forest Meteorology, 323, 109087.
[9] Peng, Z., *Tang, R. L., Jiang, Y., Liu, M., & Li, Z. L. (2022). Global estimates of 500 m daily aerodynamic roughness length from MODIS data. ISPRS Journal of Photogrammetry and Remote Sensing, 183, 336-351.
[10] Jiang, Y., *Tang, R. L., & Li, Z. L. (2022). Reconstruction of daily evapotranspiration under cloudy sky constrained by soil water budget balance. Journal of Hydrology, 605, 127288.
[11] Tang, R. L., Li, Z.-L. (2017). An end-member-based two-source approach for estimating land surface evapotranspiration from remote sensing data. IEEE Transactions on Geoscience and Remote Sensing, 55(10), 5818-5832.
[12] Tang, R. L., Li, Z.-L. (2017). An improved constant evaporative fraction method for estimating daily evapotranspiration from remotely sensed instantaneous observations. Geophysical Research Letters, 44(5), 2319-2326.
[13] Tang, R. L., Li, Z.-L. (2017). Estimating daily evapotranspiration from remotely sensed instantaneous observations with simplified derivations of a theoretical model. Journal of Geophysical Research: Atmospheres, 122.
[14] Tang, R. L., Li, Z.-L., Sun, X., Bi, Y. (2017). Temporal upscaling of instantaneous evapotranspirationon clear-sky days using the constant reference evaporative fraction method with fixed or variable surface. Journal of Geophysical Research: Atmospheres, 122, 784~801.
[15] Tang, R. L., Li, Z.-L. (2015). Evaluation of two end-member-based models for regional land surface evapotranspiration estimation from MODIS data. Agricultural and Forest Meteorology, 202, 69-82.
[16] Tang, R. L., Li, Z.-L., Sun, X. (2013). Temporal upscaling of instantaneous evapotranspiration: An intercomparison of four methods using eddy covariance measurements and MODIS data. Remote Sensing of Environment, 138, 102-118.
[17] Tang, R. L., Li, Z.-L., Chen, K. S., Jia, Y., Li, C., Sun, X. (2013). Spatial-scale effect on the SEBAL model for evapotranspiration estimation using remote sensing data. Agricultural and Forest Meteorology, 174, 28-42.
[18] Tang, R. L., Li, Z.-L., Jia, Y., Li, C., Sun, X., Kustas, W. P., Anderson, M. C. (2011). An intercomparison of three remote sensing-based energy balance models using Large Aperture Scintillometer measurements over a wheat–corn production region. Remote Sensing of Environment, 115(12), 3187-3202.
[19] Tang, R. L., Li, Z.-L., Chen, K.-S. (2011). Validating MODIS‐derived land surface evapotranspiration with in situ measurements at two AmeriFlux sites in a semiarid region. Journal of Geophysical Research: Atmospheres, 116(D4).
[20] Tang, R. L., Li, Z.-L., Tang, B. (2010). An application of the Ts–VI triangle method with enhanced edges determination for evapotranspiration estimation from MODIS data in arid and semi-arid regions: Implementation and validation. Remote Sensing of Environment, 114(3), 540-551.
招生专业:地图学与地理信息系统
招生方向:热红外遥感、水文遥感、全球变化遥感、遥感大数据
联系方式:010-64888172,tangrl@lreis.ac.cn
通讯地址:北京市朝阳区安外大屯路甲11号,邮编:100101
更新日期:2023年12月6日