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Atlantic Niño/Niña Prediction Skills in NMME Models

Ran Wang, Lin Chen, Tim Li, Jing‐Jia Luo

2021Atmosphere17 citationsDOIOpen Access PDF

Abstract

The Atlantic Niño/Niña, one of the dominant interannual variability in the equatorial Atlantic, exerts prominent influence on the Earth’s climate, but its prediction skill shown previously was unsatisfactory and limited to two to three months. By diagnosing the recently released North American Multimodel Ensemble (NMME) models, we find that the Atlantic Niño/Niña prediction skills are improved, with the multi-model ensemble (MME) reaching five months. The prediction skills are season-dependent. Specifically, they show a marked dip in boreal spring, suggesting that the Atlantic Niño/Niña prediction suffers a “spring predictability barrier” like ENSO. The prediction skill is higher for Atlantic Niña than for Atlantic Niño, and better in the developing phase than in the decaying phase. The amplitude bias of the Atlantic Niño/Niña is primarily attributed to the amplitude bias in the annual cycle of the equatorial sea surface temperature (SST). The anomaly correlation coefficient scores of the Atlantic Niño/Niña, to a large extent, depend on the prediction skill of the Niño3.4 index in the preceding boreal winter, implying that the precedent ENSO may greatly affect the development of Atlantic Niño/Niña in the following boreal summer.

Topics & Concepts

PredictabilityClimatologyBorealAtlantic Equatorial modeAnomaly (physics)Tropical AtlanticSea surface temperatureForecast skillAtlantic multidecadal oscillationAmplitudeEnvironmental scienceSouth Atlantic AnomalyOceanographyGeologyPhysicsPaleontologyQuantum mechanicsMagnetospherePlasmaCondensed matter physicsVan Allen radiation beltClimate variability and modelsTropical and Extratropical Cyclones ResearchOceanographic and Atmospheric Processes
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