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Zonal Structure of Tropical Pacific Surface Salinity Anomalies Affects ENSO Intensity and Asymmetry

Cong Guan, Feng Tian, Michael J. McPhaden, Fan Wang, Shijian Hu, Rong‐Hua Zhang

2021Geophysical Research Letters15 citationsDOIOpen Access PDF

Abstract

Abstract Previous studies have revealed the potential importance of salinity in El Niño‐Southern Oscillation (ENSO) asymmetry, but the responsible mechanisms remain unclear. Here, we investigate how the zonal structure of surface salinity anomalies affects ENSO intensity and asymmetry by modifying freshwater flux in ocean general circulation model simulations. Results show that the amplitudes of El Niño and La Niña are both highly sensitive to zonal patterns of salinity anomalies, with the strongest sea surface temperature change occurring when maximum salinity anomalies are located near 170°W. Furthermore, the effect of salinity anomalies in the central Pacific on El Niño warming is larger than those in the western Pacific on La Niña cooling. Thus, the asymmetric salinity anomalies strengthen the temperature asymmetry between El Niño and La Niña. Temperature budget analysis shows that vertical mixing and entrainment due to salinity‐induced changes in stratification are a major response to different zonal patterns of freshwater flux forcing.

Topics & Concepts

SalinityClimatologyAsymmetrySea surface temperatureForcing (mathematics)Entrainment (biomusicology)GeologyStratification (seeds)Temperature salinity diagramsOceanographyFlux (metallurgy)Atmospheric sciencesEnvironmental sciencePhysicsMaterials scienceDormancySeed dormancyQuantum mechanicsBiologyGerminationMetallurgyBotanyAcousticsRhythmClimate variability and modelsOceanographic and Atmospheric ProcessesGeology and Paleoclimatology Research
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