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Journal Article

Predictability of a stochastically forced hybrid coupled model of El Niño

MPS-Authors

Eckert,  Christian
MPI for Meteorology, Max Planck Society;

Latif,  Mojib
MPI for Meteorology, Max Planck Society;

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JoC_1997_Eckert.pdf
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Citation

Eckert, C., & Latif, M. (1997). Predictability of a stochastically forced hybrid coupled model of El Niño. Journal of Climate, 10, 1488-1504. doi:10.1175/1520-0442(1997)010<1488:POASFH>2.0.CO;2.


Cite as: https://hdl.handle.net/21.11116/0000-0003-2CBD-8
Abstract
The El Niño-Southern Oscillation (ENSO) phenomenon is modeled as a stochastically driven dynamical system. This was accomplished by adding to a Hybrid Coupled Model (HCM) of the tropical Pacific ocean-atmosphere system a stochastic wind stress anomaly field that was derived from observations. The model exhibits irregular interannual fluctuations, whose space-time characteristics resemble those of the observed interannual climate variability in this region. To investigate the predictability of the model, the authors performed ensemble integrations with different realizations of the stochastic wind stress forcing. The ensembles were initialized at various phases of the model's ENSO cycle simulated in a 120-yr integration with a particular noise realization. The numerical experiments indicate that the ENSO predictability is severely limited by the stochastic wind stress forcing. Linear stochastic processes were fitted to the restart ensembles in a reduced state space. A predictability measure based on a comparison of the stationary and the time-dependent probability distributions of the fitted linear models reveals an ENSO predictability limit of considerably less than an average cycle length.