School of Earth System Science
zhoujianhong@tju.edu.cn
Rm 208, Building 16
300072
I am Zhou Jianhong, currently serving as an associate researcher of School of Earth System Science, Tianjin University. I got my Ph.D. from College of Hydrology and Water Resources, Hohai University, and has worked at the Hydrology and Remote Sensing Laboratory of the USDA and the Department of Earth System Science of Tsinghua University, as a CSC-funded visiting scholar and a postdoctoral fellow, respectively. My research interests are land surface hydrological modeling, data assimilation, and land-atmosphere interaction using multisource satellite remote sensing data.
https://www.researchgate.net/profile/Jianhong-Zhou-5
- Doctoral degree| Hohai University| Hydrology and Water Resources| 2021
- Joint Ph.D. studuent| USDA HRSL| Hydrology and Remote Sensing| 2020
- Bachelor’s Degree| Guizhou University| Hydrology and Water Resources Engineering | 2014
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2021.7-2023.7
Tsinghua University | Postdoctoral Fellow/Associate Researcher
- Papers
- [1] Potential of remote sensing surface temperature- and evapotranspiration-based land-atmosphere coupling metrics for land surface model calibration
- [2] Improving soil moisture assimilation efficiency via model calibration using SMAP surface soil moisture climatology information
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- [3] A triple collocation-based 2D soil moisture merging methodology considering spatial and temporal nonstationary errors
- [4] Improving spatial patterns prior to land surface data assimilation via model calibration using SMAP surface soil moisture data
- [5] Regional assimilation of in situ observed soil moisture into the VIC model considering spatial variability
- [6] An advanced error correction methodology for merging in-situ observed and model-based soil moisture
- [7] Transpiration-Soil evaporation partitioning determines inter-model differences in soil moisture and evapotranspiration coupling
- [8] Cross-sectional rainfall observation on the central-western Tibetan Plateau in the warm season: System design and preliminary results
- [9] TPHiPr: a long-term (1979–2020) high-accuracy precipitation dataset (1=30°, daily) for the Third Pole region based on high-resolution atmospheric modeling and dense observations
- [10] Quick estimation of parameters for the land surface data assimilation system and its influence based on the extended Kalman filter and automatic differentiation
- [11] Large uncertainties in precipitation exert considerable impact on land surface temperature modeling over the Tibetan Plateau
- [12] Evaluation of Soil Moisture Climatology and Anomaly Components Derived From ERA5-Land and GLDAS-2.1 in China
- Honors & Awards
- [1] 河海大学优秀博士论文(2022)