GPM Refereed Publications

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Na, Y., R. Lu, Q. Fu, and C. Kodama, 2021 : Precipitation Characteristics and Future Changes Over the Southern Slope of Tibetan Plateau Simulated by a High-Resolution Global Nonhydrostatic Model. JGR Atmospheres, 126(3), e2020JD033630, doi:10.1029/2020JD033630.

Na, Y., R. Lu, Q. Fu, and L. R. Leung, 2024 : Extreme Precipitation Over the Southern Slope of the Tibetan Plateau and the Associated Atmospheric Circulation Anomalies. JGR Atmospheres, 129(19), e2024JD040872, doi:10.1029/2024JD040872.

Naeger, A. R., B. A. Colle, and A. Molthan, 2017 : Evaluation of Cloud Microphysical Schemes for a Warm Frontal Snowband during the GPM Cold Season Precipitation Experiment (GCPEx). Mon. Wea. Rev., 145(11), 4627–4650, doi:10.1175/MWR-D-17-0081.1.

Naghibi, A., H. Hashemi, P. Zhao, S. Brogaard, L. Eklund, H. H. Hassan, and A. Mansourian, 2024 : Spatiotemporal variability of dust storm source susceptibility during wet and dry periods: The Tigris-Euphrates River Basin. Atmospheric Pollution Research, 15(1), 101953, doi:10.1016/j.apr.2023.101953.

Nakai, S., K. Yamashita, H. Motoyoshi, T. Kumakura, S. Murakami, and T. Katsushima, 2022 : Relationships between Radar Reflectivity Factor and Liquid-Equivalent Snowfall Rate Derived by Direct Comparison of X-Band Radar and Disdrometer Observations in Niigata Prefecture, Japan. J. Meteor. Soc. Japan, 100(1), 45-56, doi:10.2151/jmsj.2022-002.

Nakamura, K., 2021 : Progress from TRMM to GPM. J. Meteor. Soc. Japan, 99(3), 697-729, doi:10.2151/jmsj.2021-035.

Nakamura, K., Y. Kaneko, K. Nakagawa, and H. Hanado, 2021 : Radiowave Scattering Characteristics of Melting Layer Measured by a Dual Ka-band Radar System. J. Meteor. Soc. Japan, 99(4), 1099-1114, doi:10.2151/jmsj.2021-053.

Nalamasu, N. R., M. S. Shekhar, and G. P. Singh, 2020 : Performance of 4D-Var Data Assimilation on Extreme Snowfall Forecasts over the Western Himalaya Using WRF Model. Asia-Pacific Journal of Atmospheric Sciences, 57, 555–571, doi:10.1007/s13143-020-00216-z.

Nan, L., M. Yang, H. Wang, Z. Xiang, and S. Hao, 2021 : Comprehensive Evaluation of Global Precipitation Measurement Mission (GPM) IMERG Precipitation Products over Mainland China. Water, 13(23), 3381, doi:10.3390/w13233381.

Nan, T., J. Chen, Z. Ding, W. Li, and H. Chen, 2023 : Deep learning-based multi-source precipitation merging for the Tibetan Plateau. Science China Earth Sciences, 66(4), 852–870, doi:10.1007/s11430-022-1050-2.

Nanditha, J. S., A. P. Kushwaha, R. Singh, I. Malik, H. Solanki, D. S. Chuphal, S. Dangar, S. S. Mahto, U. Vegad, and V. Mishra, 2023 : The Pakistan Flood of August 2022: Causes and Implications. Earth's Future, 11(3), e2022EF003230, doi:10.1029/2022EF003230.

Nash, D., L. M. V. Carvalho, C. Jones, and Q. Ding, 2021 : Winter and spring atmospheric rivers in High Mountain Asia: climatology, dynamics, and variability. Climate Dynamics, 58, 2309–2331, doi:10.1007/s00382-021-06008-z.

Nasimi, M. N., P. Bauer-Gottwein, S. E. Boyce, J. Huang, and M. Disse, 2026 : Gridded precipitation and temperature products performance over Afghanistan: from simple bias correction to advanced data fusion. Int'l. J. of Remote Sensing, 47(1), 337-375, doi:10.1080/01431161.2025.2600097.

Nasseri, M., G. Schoups, and M. Taheri, 2021 : A spatiotemporal framework to calibrate high-resolution global monthly precipitation products: An application to the Urmia Lake Watershed in Iran. Int'l. J. Climatology, 42(4), 2169-2194, doi:10.1002/joc.7358.

Nath, B., R. P. Singh, V. K. Gahalaut, and A. P. Singh, 2021 : Dynamic Relationship Study between the Observed Seismicity and Spatiotemporal Pattern of Lineament Changes in Palghar, North Maharashtra (India). Rem. Sens., 14(1), 135, doi:10.3390/rs14010135.

Naud, C. M., J. A. Crespo, D. J. Posselt, and J. F. Booth, 2023 : Cloud and Precipitation in Low-Latitude Extratropical Cyclones Conditionally Sorted on CYGNSS Surface Latent and Sensible Heat Fluxes. J. Climate, 36(16), 5659–5680, doi:10.1175/JCLI-D-22-0600.1.

Naud, C. M., J. E. Martin, P. Ghosh, G. S. Elsaesser, J. F. Booth, and D. J. Posselt, 2025 : Lifecycle-Type Matters for Extratropical Cyclone Precipitation Production. Geophys. Res. Letts., 52(8), e2025GL115153, doi:10.1029/2025GL115153.

Naud, C. M., J. F. Booth, M. Lebsock, and M. Grecu, 2018 : Observational Constraint for Precipitation in Extratropical Cyclones: Sensitivity to Data Sources. J. Appl. Meteor. Climatol., 47(4), 991–1009, doi:10.1175/JAMC-D-17-0289.1.

Navale, A., and C. Singh, 2020 : Topographic sensitivity of WRF-simulated rainfall patterns over the North West Himalayan region. Atmos. Res., 242, 105003, doi:10.1016/j.atmosres.2020.105003.

Navale, A., and L. Karthikeyan, 2024 : Understanding tropical cyclone persistence over land: a case study of cyclone Gulab. Environmental Research Letters, 19(11), 114061, doi:10.1088/1748-9326/ad7c6b.