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Fearon, Giles; Herbette, Steven; Veitch, Jennifer; Cambon, Gildas; Lucas, Andrew J.; Lemarié, Florian; Vichi, Marcello. |
The land‐sea breeze is resonant with the inertial response of the ocean at the critical latitude of 30°N/S. 1D‐vertical numerical experiments were undertaken to study the key drivers of enhanced diapycnal mixing in coastal upwelling systems driven by diurnal‐inertial resonance near the critical latitude. The effect of the land boundary was implicitly included in the model through the `Craig approximation' for first order cross‐shore surface elevation gradient response. The model indicates that for shallow water depths (<~100~m), bottom shear stresses must be accounted for in the formulation of the ‘Craig approximation’, as they serve to enhance the cross‐shore surface elevation gradient response, while reducing shear and mixing at the thermocline. The... |
Tipo: Text |
Palavras-chave: Inertial oscillations< /AUTHOR_KEYWORD> Land-sea breeze< /AUTHOR_KEYWORD> Diurnal-inertial resonance< /AUTHOR_KEYWORD> Coastal upwelling< /AUTHOR_KEYWORD> Diapycnal mixing< /AUTHOR_KEYWORD> Phytoplankton blooms< /AUTHOR_KEYWORD>. |
Ano: 2020 |
URL: https://archimer.ifremer.fr/doc/00643/75507/76384.pdf |
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