Chapter 13: Characterizing and Understanding Cloud Ice and Radiation Budget Biases in Global Climate Models and Reanalysis

The authors present an observationally based evaluation of the vertically resolved cloud ice water content (CIWC) and vertically integrated cloud ice water path (CIWP) as well as radiative shortwave flux downward at the surface (RSDS), reflected shortwave (RSUT), and radiative longwave flux upward a...

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Bibliographic Details
Published in:Multiscale Convection-Coupled Systems in the Tropics 2016, Vol.56, p.13_1-13_20
Main Authors: Li, J-L F, Waliser, D E, Stephens, G, Lee, Seungwon
Format: Web Resource
Language:English
Subjects:
Atmosphere
Budgets
Climate change
Climate models
Clouds
General circulation models
Global climate
Hydrometeors
Ice
Lidar
Meteorological satellites
Radiation
Radiation budget
Radiation calculations
Satellite observation
Simulation
Water content
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Summary:The authors present an observationally based evaluation of the vertically resolved cloud ice water content (CIWC) and vertically integrated cloud ice water path (CIWP) as well as radiative shortwave flux downward at the surface (RSDS), reflected shortwave (RSUT), and radiative longwave flux upward at top of atmosphere (RLUT) of present-day global climate models (GCMs), notably twentieth-century simulations from the fifth phase of the Coupled Model Intercomparison Project (CMIP5), and compare these results to those of the third phase of the Coupled Model Intercomparison Project (CMIP3) and two recent reanalyses. Three different CloudSat and/or Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observations (CALIPSO) combined ice water products and two methods are used to remove the contribution from the convective core ice mass and/or precipitating cloud hydrometeors with variable sizes and falling speeds so that a robust observational estimate can be obtained for model evaluations. The results show that, for annual mean CIWC and CIWP, there are factors of 2-10 (either over- or underestimate) in the differences between observations and models for a majority of the GCMs and for a number of regions. Most of the GCMs in CMIP3 and CMIP5 significantly underestimate the total ice water mass because models only consider suspended cloud mass, ignoring falling and convective core cloud mass. For the annual means of RSDS, RLUT, and RSUT, a majority of the models have significant regional biases ranging from -30 to 30 W m-2. Based on these biases in the annual means, there is virtually no progress in the simulation fidelity of RSDS, RLUT, and RSUT fluxes from CMIP3 to CMIP5, even though there is about a 50% bias reduction improvement of global annual mean CIWP from CMIP3 to CMIP5. It is concluded that at least a part of these persistent biases stem from the common GOM practice of ignoring the effects of precipitating and/or convective core ice and liquid in their radiation calculations.
DOI:10.1175/AMSMONOGRAPHS-D-15-0007.1