On the Resolution Sensitivity of Equatorial Precipitation in a GFDL Global Atmospheric Model

Author:

Lin Pu1ORCID,Ming Yi23,Robinson Thomas2ORCID

Affiliation:

1. Program in Atmospheric and Oceanic Sciences Princeton University Princeton NJ USA

2. Geophysical Fluid Dynamics Laboratory NOAA OAR Princeton NJ USA

3. Now at Boston College Schiller Institute for Integrated Science and Society Boston MA USA

Abstract

AbstractWe performed a series of aquaplanet simulations at the horizontal resolution from 50 to 6 km with identical parameterization settings using the Geophysical Fluid Dynamics Laboratory's Atmosphere Model version 4 implemented with the two‐moment Morrison‐Gettelman cloud microphysics with prognostic precipitation (GFDL AM4‐MG2). At the finer resolution, the global mean resolved‐scale precipitation increases and that from cumulus parameterization decreases. The model also simulates less/thinner clouds over the low latitudes and more/thicker clouds over the high latitudes as the resolution increases. The precipitation over the deep tropics is investigated in detail. We find little resolution sensitivity in the daily mean precipitation extremes. Changes of the equatorial resolved precipitation with resolution cannot be fully explained by the resolution dependence in the vertical velocity amplitude. We report a robust sensitivity in the convective organization over the deep tropics to the model resolution. In simulations of finer resolution, the localized convection is suppressed, and the organized convective system associated with large‐scale circulations becomes more prominent.

Funder

NOAA Research

Publisher

American Geophysical Union (AGU)

Subject

General Earth and Planetary Sciences,Environmental Chemistry,Global and Planetary Change

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