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Relationship between interhemispheric Rossby wave propagation and South Atlantic convergence zone during La Niña years

Hugo Alves Braga, Tércio Ambrizzi, Nicholas M. J. Hall

2022International Journal of Climatology14 citationsDOI

Abstract

Abstract Through a set of observational analyses and baroclinic model experiments, we show that during La Niña conditions a wave train in North Pacific propagates eastwards along the Asian jet, crosses the equator and interacts with the SACZ through an equatorial window in the East Pacific. Composites of active SACZ for November–March of 1979–2013 are used, drawn from the full dataset and also from just the La Niña years. The data are filtered in two‐time bands: 20–90 days (intraseasonal) and >200 days (interannual). Interhemispheric waveguides are identified in the anomalous SACZ composites during La Niña years. A similar wave pattern is simulated by a baroclinic atmospheric model with a fixed La Niña basic state where a thermal forcing anomaly is added on Southeast Asia. This La Niña basic state favours anomalous westerly equatorial flow at high levels, enabling a connection between Asia and South America around 15 days.

Topics & Concepts

BaroclinityRossby waveClimatologyGeologyEquatorAnomaly (physics)Forcing (mathematics)Zonal flow (plasma)Atmospheric sciencesLatitudePhysicsGeodesyTokamakCondensed matter physicsPlasmaQuantum mechanicsClimate variability and modelsOceanographic and Atmospheric ProcessesTropical and Extratropical Cyclones Research
Relationship between interhemispheric Rossby wave propagation and South Atlantic convergence zone during La Niña years | Litcius