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contributor authorJia, Fan
contributor authorWu, Lixin
date accessioned2017-06-09T17:19:35Z
date available2017-06-09T17:19:35Z
date copyright2013/07/01
date issued2013
identifier issn0022-3670
identifier otherams-83217.pdf
identifier urihttp://onlinelibrary.yabesh.ir/handle/yetl/4226418
description abstracthe response of the equatorial Pacific SST under CO2 doubling is investigated using Community Atmosphere Model, version 3.1 (CAM3.1)?1.5-layer reduced-gravity ocean (RGO) coupled model. A robust El Niño?like warming pattern is found in the equatorial Pacific. The surface heat budget analyses suggest the El Niño?like pattern results from a weakening of the Walker circulation. In the western equatorial Pacific, all the heat flux components are important to warm the ocean, with the vast majority canceled by entraiment cooling related to increased stratification. In the central-eastern Pacific, the oceanic horizontal advections along with longwave radiation and latent heat flux act to warm the ocean, with entrainment, shortwave radiation, and horizontal diffusion acting as damping terms. An enhanced annual cycle of SST in the equatorial Pacific is also found, which is driven by the ocean dynamical adjustments to changing winds in the eastern ocean.Although the ocean model used here is a simple reduced-gravity model, the El Niño?like response supports the results of some full ocean?atmosphere general circulation models (GCMs) performed for the World Climate Research Programme (WCRP) Coupled Model Intercomparison Project (CMIP) phase-5, indicating that the CAM3.1?RGO model can be taken as a useful and efficient tool to study equatorial Pacific response under changing climate.
publisherAmerican Meteorological Society
titleA Study of Response of the Equatorial Pacific SST to Doubled-CO2 Forcing in the Coupled CAM–1.5-Layer Reduced-Gravity Ocean Model
typeJournal Paper
journal volume43
journal issue7
journal titleJournal of Physical Oceanography
identifier doi10.1175/JPO-D-12-0144.1
journal fristpage1288
journal lastpage1300
treeJournal of Physical Oceanography:;2013:;Volume( 043 ):;issue: 007
contenttypeFulltext


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