Selected Publications

  • MacDonald, C.G., and Y. Ming (2022). "Tropical Intraseasonal Variability Response to Zonally Asymmetric Forcing in an Idealized Moist GCM." Journal of Climate, 35(24), 4479-4501.
  • Narinesingh, V., J.F. Booth, and Y. Ming (2022). "Blocking and General Circulation in GFDL Comprehensive Climate Models." Journal of Climate, 35(12).
  • Mahfouz, N.G.A., S.A. Hill, H. Guo, and Y. Ming (2022). "The Radiative and Cloud Responses to Sea Salt Aerosol Engineering in GFDL Models." Geophysical Research Letters, 50(2).
  • Dong, W., Y. Ming, and V. Ramaswamy (2022). "Seasonality and Variability of Snowfall to Total Precipitation Ratio over High Mountain Asia Simulated by the GFDL High-Resolution AM4." Journal of Climate, 35(17).
  • Dong, W., M. Zhao, Y. Ming, and V. Ramaswamy (2022). "Significant Increase in Sea Surface Temperature at the Genesis of Tropical Mesoscale Convective Systems." Geophysical Research Letters, 49(24).
  • Narinesingh, V., J.F. Booth, and Y. Ming (2023). "Northern Hemisphere Heat Extremes in a Warmer Climate: More Probable but Less Colocated with Blocking." Geophysical Research Letters, 50(2).
  • Dong, W., M. Zhao, Y. Ming, J.P. Krasting, and V. Ramaswamy (2023). "Simulation of United States Mesoscale Convective Systems Using GFDL’s New High-Resolution General Circulation Model." Journal of Climate.
  • Neelin, J.D., and co-authors (2023). "Process-Oriented Diagnostics: Principles, Practice, Community Development and Common Standards." Bulletin of the American Meteorological Society.
  • Lin, P., Y. Ming, and T.E. Robinson (2023). "On the Resolution Sensitivity of Equatorial Precipitation in a GFDL Global Atmospheric Model." Journal of Advances in Modeling Earth Systems, 15(10).
  • You, Z., Y. Deng, Y. Ming, and W. Dong (2024). "A Multiscale Assessment of the Springtime U.S. Mesoscale Convective Systems in the NOAA GFDL AM4." Climate Dynamics.
  • Cooper, V.T., and co-authors (2024). "Last Glacial Maximum Pattern Effects Reduce Climate Sensitivity Estimates." Science Advances, 10.
  • Feingold, G., and co-authors (2024). "Physical Science Research Needed to Evaluate the Viability and Risks of Marine Cloud Brightening." Science Advances, 10.
  • Narinesingh, V., H. Guo, S.T. Garner, and Y. Ming (2024). "Uniform SST Warming Explains Most of the NH Winter Circulation and Blocking Response in a Warmer Climate." Journal of Climate.
  • Dong, W., Y. Ming, Y. Deng, and Z. Shen (2024). "Recent Wetting Trend over Taklamakan and Gobi Desert Dominated by Internal Variability." Nature Communications.
  • Nikumbh, A.C., P. Lin, D. Paynter, and Y. Ming (2024). "Does Increasing Horizontal Resolution Improve the Simulation of Intense Tropical Rainfall in GFDL's AM4 Model?" Geophysical Research Letters.
  • Frazer, M.E., and Y. Ming (2022). "Understanding the Extratropical Liquid Water Path Feedback in Mixed-Phase Clouds with an Idealized Global Climate Model." Journal of Climate, 35(8), 2391-2406.
  • Frazer, M.E., and Y. Ming (2022). "Understanding Controlling Factors of Extratropical Humidity and Clouds with an Idealized General Circulation Model." Journal of Climate, 35(16), 5321-5337.
  • Chemke, R., Y. Ming, and J. Yuval (2022). "The Intensification of Winter Midlatitude Storm Tracks in the Southern Hemisphere." Nature Climate Change, 12, 553-557.
  • Zheng, Y., and Y. Ming (2022). "Low-Level Cloud Budgets Across Sea Ice Edges." Journal of Climate.
  • MacDonald, C.G., and Y. Ming (2022). "Tropical Intraseasonal Variability Response to Zonally Asymmetric Forcing in an Idealized Moist GCM." Journal of Climate, 35(24), 4479-4501.
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