GPM Refereed Publications

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Lu, X., K. Guan, C. Jiang, L. Gao, S. Wang, and J. Zhang, 2024 : Incorporating changes in land surface temperature improves BESS evapotranspiration estimates under water-deficit conditions: A case study for US Midwest and Great Plains grasslands. J. Hydrology, 645(Part B), 132201, doi:10.1016/j.jhydrol.2024.132201.

Lu, X., M. Wei, G. Tang, and Y. Zhang, 2018 : Evaluation and correction of the TRMM 3B43V7 and GPM 3IMERGM satellite precipitation products by use of ground-based data over Xinjiang, China. Environmental Earth Sciences, 77(5), 209, doi:10.1007/s12665-018-7378-6.

Lu, X., S. C. Chan, J. C. H. Fung, and A. K.H. Lau, 2019 : To what extent can the below-cloud washout effect influence the PM2.5? A combined observational and modeling study. Environ Pollut., 251, 338-343, doi:10.1016/j.envpol.2019.04.061.

Lu, X.-Y., Y.-Y. Chen, G.-Q. Tang, X.-Q. Wang, Y. Liu, and M. Wei, 2022 : Quantitative estimation of hourly precipitation in the Tianshan Mountains based on area-to-point kriging downscaling and satellite-gauge data merging. J. Mountain Science, 19(1), 58–72, doi:10.1007/s11629-021-6901-5.

Lu, Y., J. H. Marsham, J. Tang, D. J. Parker, and J. Fang, 2025 : Summer Mesoscale Convective Systems in Convection-Permitting Simulation Using WRF Over East China. JGR Atmospheres, 130(8), e2025JD043653, doi:10.1029/2025JD043653.

Lu, Y., J. Tang, X. Xu, Y. Tang, and J. Fang, 2024 : Characteristics of Warm-Season Mesoscale Convective Systems Over the Yangtze–Huaihe River Basin (YHR): Comparison Between Radar and Satellite. JGR Atmospheres, 129(1), e2023JD038924, doi:10.1029/2023JD038924.

Lu, Y., Y. Li, J. Tang, and Z. Gao, 2025 : Typhoon In-Fa (2021) Near Surface Wind Field Characteristics Based on Lidar Observations. JGR Atmospheres, 130(10), e2024JD043184, doi:10.1029/2024JD043184.

Lubis, S. W., S. Hagos, C.-C. Chang, K. Balaguru, and L. R. Leung, 2023 : Cross-Equatorial Surges Boost MJO's Southward Detour Over the Maritime Continent. Geophys. Res. Letts., 50(15), e2023GL104770, doi:10.1029/2023GL104770.

Lubis, S. W., S. Hagos, E. Hermawan, M. R. Respati, A. Ridho, Risyanto, J. A. I. Paski, F. R. Muhammad, Siswanto, D. N. Ratri, S. Setiawan, and D. S. Permana, 2022 : Record-Breaking Precipitation in Indonesia's Capital of Jakarta in Early January 2020 Linked to the Northerly Surge, Equatorial Waves, and MJO. Geophys. Res. Letts., 49(22), e2022GL101513, doi:10.1029/2022GL101513.

Lucchese, L. V., G. G. De Oliveira, O. C. Pedrollo, and A. Brenning, 2025 : Spatially distributed antecedent rainfall thresholds for landslide occurrence: a multitask machine learning modelling approach. Hydrological Sciences Journal, 70(15), 2785-2798, doi:10.1080/02626667.2025.2561163.

Lui, Y. S., C.-Y. Tam, L. K.-S. Tse, K.-K. Ng, W.-N. Leung, and C. C. Cheung, 2020 : Evaluation of a Customized Variable-Resolution Global Model and its Application for High-Resolution Weather Forecasts in East Asia. Earth and Space Science, 7(7), e2020EA001228, doi:10.1029/2020EA001228.

Luna-Niño, R., C. M. Naud, A. Gershunov, J. A. Crespo, D. J. Posselt, and L. Delle Mon, 2026 : Convection Embedded in an Atmospheric River: Exploring Precipitation Sensitivity to Convective Parameterizations. Mon. Wea. Rev., 154(1), 3–20, doi:10.1175/MWR-D-25-0087.1.

Luo, S., G. Feng, Z. Xiong, H. Wang, Y. Zhao, K. Li, K. Deng, and Y. Wang, 2021 : An Improved Method for Automatic Identification and Assessment of Potential Geohazards Based on MT-InSAR Measurements. Rem. Sens., 13(17), 3490, doi:10.3390/rs13173490.

Luo, Z., H. Yu, H. Liu, and J. Chen, 2023 : Assessing the Water Budget Closure Accuracy of Satellite/Reanalysis-Based Hydrological Data Products over Mainland China. Rem. Sens., 15(21), 5230, doi:10.3390/rs15215230.

Luo, Z., Q. Shao, W. Wan, H.n Li, X. Chen, S. Zhu, and X. Ding, 2021 : A new method for assessing satellite-based hydrological data products using water budget closure. J. Hydrology, 594, 125927, doi:10.1016/j.jhydrol.2020.125927.

Luo, Z., S. Zhang, Q. Shao, L. Wang, S. Wang, L. Wang, 2024 : A new method to improve precipitation estimates by blending multiple satellite/reanalysis-based precipitation products and considering observations and terrestrial water budget balance. J. Hydrology, 635, 131188, doi:10.1016/j.jhydrol.2024.131188.

Lv, P., and G. Wu, 2024 : The Performance of GPM IMERG Product Validated on Hourly Observations over Land Areas of Northern Hemisphere. Rem. Sens., 16(22), 4334, doi:10.3390/rs16224334.

Lyu, F., G. Tang, A. Behrangi, T. Wang, X. Tan, Z. Ma, and W. Xiong , 2020 : Precipitation Merging Based on the Triple Collocation Method Across Mainland China. IEEE Transactions on Geoscience and Remote Sensing, 59(4), 3161-3176, doi:10.1109/TGRS.2020.3008033.

Lyu, F., Z. Qin, S. A. Cummer, Y. Zheng, S. Jiang, T. Zheng, Y. Liu, W. Xu, and W. Lyu, 2024 : Source Altitude of Energetic In-Cloud Pulses Inside Thunderstorms and Implication for the Intrinsic Brightness of Terrestrial Gamma-Ray Flashes. Geophys. Res. Letts., 51(20), e2024GL110598, doi:10.1029/2024GL110598.

Lyu, X., Z. Li, and X. Li, 2024 : Evaluation of GPM IMERG Satellite Precipitation Products in Event-Based Flood Modeling over the Sunshui River Basin in Southwestern China. Rem. Sens., 16(13), 2333, doi:10.3390/rs16132333.