Litcius/Paper detail

Understanding Reintensified Multiyear El Niño Events

Ji‐Won Kim, Jin‐Yi Yu

2020Geophysical Research Letters41 citationsDOI

Abstract

Abstract To understand the unique temporal evolution of the 2014–2016 multiyear El Niño event, which can be characterized as a successive and reintensified event preceded by a weak El Niño, this study examines similar events in a 2,200‐yr simulation of Community Earth System Model, version 1. By contrasting multiyear El Niño events with single‐year ones, we find that the succession characteristics of multiyear El Niño events are primarily caused by a negative North Pacific Oscillation (NPO) in the first‐year winter via subtropical Pacific coupling processes. By contrasting reintensified multiyear El Niño events with lingering ones, we find that the reintensification characteristics are caused by a negative Indian Ocean Dipole (IOD) in the first‐year fall via tropical interbasin coupling processes. The phase information of the preceding winter NPO and fall IOD together can be used to project the evolution characteristics of El Niño events, particularly the reintensified multiyear and transitional single‐year events.

Topics & Concepts

ClimatologyEnvironmental scienceOceanographyEvent (particle physics)Coupled model intercomparison projectSubtropicsEcological successionPacific decadal oscillationSea surface temperatureClimate changeGeneral Circulation ModelGeologyPhysicsEcologyBiologyQuantum mechanicsClimate variability and modelsOceanographic and Atmospheric ProcessesTropical and Extratropical Cyclones Research
Understanding Reintensified Multiyear El Niño Events | Litcius