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www.nonlin-processes-geophys.net/5/39/1998/
doi:10.5194/npg-5-39-1998
© Author(s) 1998. This work is licensed
under a Creative Commons License.
The nonlinear evolution of unstable coupled equatorial ocean-atmosphere modes
Institute for Marine and Atmospheric Research Utrecht, Utrecht University, The Netherlands
Abstract. In this paper we investigate whether observed intraseasonal variability in the equatorial Pacific can be attributed to finite amplitude waves resulting from unstable air-sea interactions. Within a Zebiak - Cane type model of the coupled equatorial ocean - atmosphere, the nonlinear equilibration of instabilities of a simple basic state is considered with periodic conditions on the ocean boundaries. Three mechanisms exist which can induce a finite amplitude equilibration on a time scale ε2t. Here t is the characteristic time scale of growth of the disturbance and ε the relative distance from the instability threshold. For each equilibration mechanism, the finite amplitude and period of the equilibrium state are computed as a function of ε and substantial amplitude can be reached for a reasonable degree of supercriticality. Thereafter the analysis is extended to include time-dependent external forcing. It is shown that interannual variability may result through the interaction of the response of a weak annual external forcing and the finite amplitude development of the intraseasonal instabilities.
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Citation: van der Vaart, P. C. F. and Dijkstra, H. A.: The nonlinear evolution of unstable coupled equatorial ocean-atmosphere modes, Nonlin. Processes Geophys., 5, 39-52, doi:10.5194/npg-5-39-1998, 1998. Bibtex EndNote Reference Manager XML
