The Dynamical Core, Physical Parameterizations, and Basic Simulation Characteristics of the Atmospheric Component AM3 of the GFDL Global Coupled Model CM3

气候模式 气候学 对流层 平流层 地球物理流体力学 环境科学 大气科学 对流层顶 大气模式 对流 大气模式 大气环流 降水 大气(单位) 气象学 气候变化 地质学 物理 海洋学
作者
Leo J. Donner,Bruce Wyman,Richard S. Hemler,Larry W. Horowitz,Yi Ming,Ming Zhao,Jean‐Christophe Golaz,Paul Ginoux,Shian‐Jiann Lin,M. D. Schwarzkopf,J. Austin,Ghassan J. Alaka,William Cooke,Thomas L. Delworth,S. M. Freidenreich,Chris Gordon,Stephen M. Griffies,Isaac M. Held,William J. Hurlin,Stephen A. Klein,Thomas R. Knutson,A. R. Langenhorst,Hyun‐Chul Lee,Yanluan Lin,Brian I. Magi,Sergey Malyshev,P. C. D. Milly,Vaishali Naïk,Mary Jo Nath,Robert Pincus,Jeffrey J. Ploshay,V. Ramaswamy,Charles J. Seman,Elena Shevliakova,J. Sirutis,William F. Stern,Ronald J. Stouffer,R. J. Wilson,Michael Winton,Andrew T. Wittenberg,Fanrong Zeng
出处
期刊:Journal of Climate [American Meteorological Society]
卷期号:24 (13): 3484-3519 被引量:998
标识
DOI:10.1175/2011jcli3955.1
摘要

Abstract The Geophysical Fluid Dynamics Laboratory (GFDL) has developed a coupled general circulation model (CM3) for the atmosphere, oceans, land, and sea ice. The goal of CM3 is to address emerging issues in climate change, including aerosol–cloud interactions, chemistry–climate interactions, and coupling between the troposphere and stratosphere. The model is also designed to serve as the physical system component of earth system models and models for decadal prediction in the near-term future—for example, through improved simulations in tropical land precipitation relative to earlier-generation GFDL models. This paper describes the dynamical core, physical parameterizations, and basic simulation characteristics of the atmospheric component (AM3) of this model. Relative to GFDL AM2, AM3 includes new treatments of deep and shallow cumulus convection, cloud droplet activation by aerosols, subgrid variability of stratiform vertical velocities for droplet activation, and atmospheric chemistry driven by emissions with advective, convective, and turbulent transport. AM3 employs a cubed-sphere implementation of a finite-volume dynamical core and is coupled to LM3, a new land model with ecosystem dynamics and hydrology. Its horizontal resolution is approximately 200 km, and its vertical resolution ranges approximately from 70 m near the earth’s surface to 1 to 1.5 km near the tropopause and 3 to 4 km in much of the stratosphere. Most basic circulation features in AM3 are simulated as realistically, or more so, as in AM2. In particular, dry biases have been reduced over South America. In coupled mode, the simulation of Arctic sea ice concentration has improved. AM3 aerosol optical depths, scattering properties, and surface clear-sky downward shortwave radiation are more realistic than in AM2. The simulation of marine stratocumulus decks remains problematic, as in AM2. The most intense 0.2% of precipitation rates occur less frequently in AM3 than observed. The last two decades of the twentieth century warm in CM3 by 0.32°C relative to 1881–1920. The Climate Research Unit (CRU) and Goddard Institute for Space Studies analyses of observations show warming of 0.56° and 0.52°C, respectively, over this period. CM3 includes anthropogenic cooling by aerosol–cloud interactions, and its warming by the late twentieth century is somewhat less realistic than in CM2.1, which warmed 0.66°C but did not include aerosol–cloud interactions. The improved simulation of the direct aerosol effect (apparent in surface clear-sky downward radiation) in CM3 evidently acts in concert with its simulation of cloud–aerosol interactions to limit greenhouse gas warming.

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