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W3204071521 endingPage "132" @default.
W3204071521 startingPage "105" @default.
W3204071521 abstract "Global differences of temperature and buoyancy flux at the ocean surface are responsible for small-scale convection at high latitudes, global overturning, and the top-to-bottom density difference in the oceans. With planetary rotation the convection also contributes to the large-scale horizontal, geostrophic circulation, and it crucially involves a 3D linkage between the geostrophic circulation and vertical overturning. The governing dynamics of such a surface-forced convective flow are fundamentally different from Rayleigh–Bénard convection, and the role of buoyancy forcing in the oceans is poorly understood. Geostrophic balance adds to the constraints on transport in horizontal convection, as illustrated by experiments, theoretical scaling, and turbulence-resolving simulations for closed (mid-latitude) basins and an annulus or reentrant zonal (circumpolar) channel. In these geometries, buoyancy drives either horizontal mid-latitude gyre recirculations or a strong Antarctic Circumpolar Current, respectively, in addition to overturning. At large Rayleigh numbers the release of available potential energy by convection leads to turbulent mixing with a mixing efficiency approaching unity. Turbulence-resolving models are also revealing the relative roles of wind stress and buoyancy when there is mixed forcing, and in future work they need to include the effects of turbulent mixing due to energy input from tides." @default.
W3204071521 created "2021-10-11" @default.
W3204071521 creator A5017181481 @default.
W3204071521 creator A5018594465 @default.
W3204071521 date "2022-01-05" @default.
W3204071521 modified "2023-10-11" @default.
W3204071521 title "Rotating Horizontal Convection" @default.
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W3204071521 doi "https://doi.org/10.1146/annurev-fluid-030121-115729" @default.
W3204071521 hasPublicationYear "2022" @default.
W3204071521 type Work @default.