COLA Report 32

ENSO Simulation and Prediction with a Hybrid Coupled Model

Ben P. Kirtman and Stephen E. Zebiak

August 1996


Abstract

A hybrid coupled model (HCM) consisting of a tropical Pacific Ocean and global atmosphere is presented. The ocean component is a linear reduced gravity model of the upper ocean in the tropical Pacific. The atmospheric component is triangular 30 horizontal resolution global spectral general circulation model with 18 unevenly spaced levels in the vertical. In coupling these component models, an anomaly coupling strategy is employed. A 40 year simulation was made with HCM and the variablity in the tropical Pacific was compared to the observed variability. The HCM produces irregular ENSO events with a broad spectrum of periods between 12 and 48 months. On longer time scales, approximately 48 months, the simulated variability was weaker than the observed and on shorter time scales, approximately 48 months, the simulated variability was weaker than the observed and on shorter time scales (approximately 24 months) the simulated variability was too strong. The simulated variability is asymmetric in the sense that the amplitude of the warm events is realsitic, but there are no significant cold events.

An ensemble of 60 hindcast predictions were made with the HCM and the skill was compared to other prediction systems. In forecasting sea surface temperature anomalies in the easten Pacific, the HCM is comparable to the other prediction systems for lead times up to 10 months. The anomaly correlation coefficient for the eastern Pacific SSTA remains above 0.6 for lead times of up to 11 months. Consistent with the 40 year simulation, hindcasts of cold events have little skill, particularly when compared to hindcasts of warm events. Specific hindcasts also demonstrate that the HCM also has difficulty predicting the transition from warm conditions to normal or cold conditions.

Complete copies of this report are available from:

Center for Ocean-Land-Atmosphere Studies
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last update: 1 July 1996
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