GFDL’s ESM2 Global Coupled Climate–Carbon Earth System Models. Part I: Physical Formulation and Baseline Simulation Characteristics

Dunne, John P.; John, Jasmin G.; Adcroft, Alistair; Griffies, Stephen M.; Hallberg, Robert; Shevliakova, Elena; Stouffer, Ronald J.; Cooke, William; Dunne, K. A.; Harrison, Matthew; Krasting, John P.; Malyshev, Sergey; Milly, P. C. D.; Phillipps, Peter J.; Sentman, Lori T.; Samuels, Bonita L.; Spelman, Michael J.; Winton, Michael; Wittenberg, Andrew T.; Zadeh, Niki

doi:10.1175/jcli-d-11-00560.1

articleJournal of ClimateApr 5, 2012BRONZE OA

GFDL’s ESM2 Global Coupled Climate–Carbon Earth System Models. Part I: Physical Formulation and Baseline Simulation Characteristics

JPJohn P. Dunne JGJasmin G. John AAAlistair Adcroft SMStephen M. Griffies RHRobert Hallberg

National Oceanic and Atmospheric Administration · NOAA Geophysical Fluid Dynamics Laboratory · +2 more institutions

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Abstract

Abstract The physical climate formulation and simulation characteristics of two new global coupled carbon–climate Earth System Models, ESM2M and ESM2G, are described. These models demonstrate similar climate fidelity as the Geophysical Fluid Dynamics Laboratory’s previous Climate Model version 2.1 (CM2.1) while incorporating explicit and consistent carbon dynamics. The two models differ exclusively in the physical ocean component; ESM2M uses Modular Ocean Model version 4p1 with vertical pressure layers while ESM2G uses Generalized Ocean Layer Dynamics with a bulk mixed layer and interior isopycnal layers. Differences in the ocean mean state include the thermocline depth being relatively deep in ESM2M and…

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Keywords

Climatology
Isopycnal
Ocean gyre
Climate model
Thermocline
Ocean heat content
Geophysical fluid dynamics
Ocean current

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