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Variability of the Indian Ocean Dipole post-2100 reverses to a reduction despite persistent global warming

Guojian Wang, Wenju Cai, Agus Santoso

2024Nature Communications15 citationsDOIOpen Access PDF

Abstract

Previous examination of the Indian Ocean Dipole (IOD) response to greenhouse warming shows increased variability in the eastern pole but decreased variability in the western pole before 2100. The opposing response is due to a shallowing equatorial thermocline promoting sea surface temperature (SST) variability in the east, but a more stable atmosphere decreasing variability in equatorial zonal winds that weakens SST variability in the west. Post-2100, how the IOD may change remains unknown. Here we show that IOD variability weakens post-2100 in majority of models under a long-term high emission scenario to 2300. Post-2100, the atmosphere stability increases further and persistent ocean warming arrests or even reverses the eastern Indian Ocean shallowing thermocline. These changes conspire to drive decreased variability in both poles, reducing amplitude of moderate, strong and early-maturing positive IOD events. Our result highlights a nonlinear response of the IOD to long-term greenhouse warming under the high emission scenario.

Topics & Concepts

Global warmingReduction (mathematics)ClimatologyEnvironmental scienceIndian oceanClimate changeOceanographyGeologyMathematicsGeometryClimate variability and modelsOceanographic and Atmospheric ProcessesTropical and Extratropical Cyclones Research
Variability of the Indian Ocean Dipole post-2100 reverses to a reduction despite persistent global warming | Litcius