The dynamics of a low-order coupled wind-driven ocean–atmosphere system is investigated with emphasis on its predictability properties. The low-order coupled deterministic system is composed of a baroclinic atmosphere for which 12 dominant dynamical modes are only retained (Charney and Straus in J Atmos Sci 37:1157–1176, 1980) and a wind-driven, quasi-geostrophic and reduced-gravity shallow ocean whose field is truncated to four dominant modes able to reproduce the large scale oceanic gyres (Pierini in J Phys Oceanogr 41:1585–1604, 2011). The two models are coupled through mechanical forcings only. The analysis of its dynamics reveals first that under aperiodic atmospheric forcings only dominant single gyres (clockwise or counterclockwise) ...
In this paper, a low-order spectral quasigeostrophic (QG) model of the wind-driven ocean circulation...
A low-order quasigeostrophic double-gyre ocean model is subjected to an aperiodic forcing that mimic...
Various steady and time-dependent regimes of a quasi-geostrophic 1.5 layer model of an oceanic circu...
A new low-order coupled ocean–atmosphere model for midlatitudes is derived. It is based on quasi-g...
International audienceThe predictability of the atmosphere at short and long time-scales associated ...
This paper presents a summary of our research on the predictability and variability of a coupled oce...
The predictability and variability of a coupled ocean-atmosphere model has been investigated by exam...
A new low-order coupled ocean-atmosphere model for midlatitudes is derived. It is based on quasi-geo...
International audienceWe formulate and study a low-order nonlinear coupled ocean-atmosphere model wi...
A system of ve ordinary dierential equations is studied which combines the Lorenz model for the atmo...
A spectral quasigeostrophic model of the wind-driven ocean circulation with four degrees of freedom ...
The steady states of two models of the double-gyre wind-driven ocean circulation are studied. The li...
We study a simplified coupled atmosphere-ocean model using the formalism of covariant Lyapunov vecto...
The large-scale, near-surface flow of the mid-latitude oceans is dominated by the presence of a larg...
A reformulation of the simple model of the thermally and wind-driven ocean cir-culation introduced b...
In this paper, a low-order spectral quasigeostrophic (QG) model of the wind-driven ocean circulation...
A low-order quasigeostrophic double-gyre ocean model is subjected to an aperiodic forcing that mimic...
Various steady and time-dependent regimes of a quasi-geostrophic 1.5 layer model of an oceanic circu...
A new low-order coupled ocean–atmosphere model for midlatitudes is derived. It is based on quasi-g...
International audienceThe predictability of the atmosphere at short and long time-scales associated ...
This paper presents a summary of our research on the predictability and variability of a coupled oce...
The predictability and variability of a coupled ocean-atmosphere model has been investigated by exam...
A new low-order coupled ocean-atmosphere model for midlatitudes is derived. It is based on quasi-geo...
International audienceWe formulate and study a low-order nonlinear coupled ocean-atmosphere model wi...
A system of ve ordinary dierential equations is studied which combines the Lorenz model for the atmo...
A spectral quasigeostrophic model of the wind-driven ocean circulation with four degrees of freedom ...
The steady states of two models of the double-gyre wind-driven ocean circulation are studied. The li...
We study a simplified coupled atmosphere-ocean model using the formalism of covariant Lyapunov vecto...
The large-scale, near-surface flow of the mid-latitude oceans is dominated by the presence of a larg...
A reformulation of the simple model of the thermally and wind-driven ocean cir-culation introduced b...
In this paper, a low-order spectral quasigeostrophic (QG) model of the wind-driven ocean circulation...
A low-order quasigeostrophic double-gyre ocean model is subjected to an aperiodic forcing that mimic...
Various steady and time-dependent regimes of a quasi-geostrophic 1.5 layer model of an oceanic circu...