Geophysical Research Letters (Jul 2024)

How Well Does the DOE Global Storm Resolving Model Simulate Clouds and Precipitation Over the Amazon?

  • Jingjing Tian,
  • Yunyan Zhang,
  • Stephen A. Klein,
  • Christopher R. Terai,
  • Peter M. Caldwell,
  • Hassan Beydoun,
  • Peter Bogenschutz,
  • Hsi‐Yen Ma,
  • Aaron S. Donahue

DOI
https://doi.org/10.1029/2023GL108113
Journal volume & issue
Vol. 51, no. 14
pp. n/a – n/a

Abstract

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Abstract This study assesses a 40‐day 3.25‐km global simulation of the Simple Cloud‐Resolving E3SM Model (SCREAMv0) using high‐resolution ground‐based observations from the Atmospheric Radiation Measurement (ARM) Green Ocean Amazon (GoAmazon) field campaign. SCREAMv0 reasonably captures the diurnal timing of boundary layer clouds yet underestimates the boundary layer cloud fraction and mid‐level congestus. SCREAMv0 well replicates the precipitation diurnal cycle, however it exhibits biases in the precipitation cluster size distribution compared to scanning radar observations. Specifically, SCREAMv0 overproduces clusters smaller than 128 km, and does not form enough large clusters. Such biases suggest an inhibition of convective upscale growth, preventing isolated deep convective clusters from evolving into larger mesoscale systems. This model bias is partially attributed to the misrepresentation of land‐atmosphere coupling. This study highlights the potential use of high‐resolution ground‐based observations to diagnose convective processes in global storm resolving model simulations, identify key model deficiencies, and guide future process‐oriented model sensitivity tests and detailed analyses.

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