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contributor authorQiwei Sun
contributor authorYan Du
date accessioned2023-04-12T18:45:38Z
date available2023-04-12T18:45:38Z
date copyright2022/09/15
date issued2022
identifier otherJCLI-D-21-0973.1.pdf
identifier urihttp://yetl.yabesh.ir/yetl1/handle/yetl/4290201
description abstractBased on the abrupt-4XCO2 scenario in phase 6 of the Coupled Model Intercomparison Project (CMIP6), this study investigates the response of the rainfall changes to El Niño–like SST warming and the role of ocean dynamical processes in the salinity changes in the tropical Pacific. The results show that the Walker circulation weakening and eastward shift, related to El Niño–like SST warming, dominates the zonal precipitation change. Precipitation decreases (increases) in the Maritime Continent (the equatorial Pacific), partly offsetting the effect of specific humidity. At the same time, the El Niño–like warming triggers convergence of meridional winds, which leads to a precipitation increase in the equatorial Pacific and a decrease in the intertropical convergence zone and the South Pacific convergence zone, following the “warmer-get-wetter” mechanism. Unlike the spatial pattern of precipitation changes, the sea surface salinity changes become fresher in the tropical western Pacific, related to the precipitation and the mean horizontal advection. The precipitation increase leads to negative salinity anomalies in the equatorial central Pacific. The westward climatological zonal currents transport the negative salinity anomalies westward. The meridional currents advect the salinity anomalies to both sides of the equator, partly offsetting the contribution of the freshwater flux on the salinity change. In addition, shallower mixed layer depth and weakening upwelling bring less high-salinity water to the surface and impact salinity redistribution through the vertical process in the equatorial regions.
publisherAmerican Meteorological Society
titleSea Surface Salinity Changes in Response to El Niño–like SST Warming and Relevant Ocean Dynamics in the Tropical Pacific under the CMIP6 Abrupt-4XCO2 Scenario
typeJournal Paper
journal volume35
journal issue18
journal titleJournal of Climate
identifier doi10.1175/JCLI-D-21-0973.1
journal fristpage5839
journal lastpage5854
page5839–5854
treeJournal of Climate:;2022:;volume( 035 ):;issue: 018
contenttypeFulltext


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