Tropical instability waves (TIWs) are oceanic features propagating westward along the northern front of the pacific cold tongue. Observational and modeling studies suggest that TIWs may have a large impact on the eastern tropical Pacific background state from seasonal to interannual time-scales, through heat advection and mixing. However, observations are coarse or limited to surface data, and modeling studies are often based on the comparison of low- vs. high-resolution simulations. In this study, we perform a set of regional high-resolution ocean simulations (CROCO 1/12°) in which we strongly damp (NOTIWs-RUN) or not (TIWs-RUN) TIW propagation, by nudging meridional current velocities in the TIW region toward their monthly climatological values. This approach, while effectively removing TIW mesoscale activity, does not alter the model internal physics in particular related to the equatorial Kelvin wave dynamics. The impact of TIWs on the oceanic mean state is then assessed by comparing the two simulations. While the well-known direct effect of TIW heat advection is to weaken the meridional temperature gradient by warming up the cold tongue (0.34°C/month), the rectified effect of TIWs onto the mean state attenuates this direct effect by cooling down the cold tongue (-0.10°C/month). This rectified effect occurs through the TIW induced deepening and weakening of the Equatorial Undercurrent, that subsequently modulates the mean zonal advection and counterbalances TIWs direct effect. This approach allows quantifying the rectified effect of TIWs without degrading the model horizontal resolution, and may lead to a better characterization of the eastern tropical Pacific mean state and to the development of TIW parameterizations in Earth system models.
TIWs represent the dominant form of oceanic mesoscale activity in the tropics. They are generated by baroclinic and barotropic conversions of energy that are respectively related to the mean meridional gradient of temperature between the cold equatorial upwelled water and the surrounding warm tropical waters (
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