Saturation of the Internal Tide over the Inner Continental Shelf. Part I: Observations

Becherer, J.; Moum, J.; Calantoni, J.; Colosi, J.; Barth, J.; Lerczak, J.; McSweeney, J.; MacKinnnon, J.; Waterhouse, A.

Journalpaper

Saturation of the Internal Tide over the Inner Continental Shelf. Part I: Observations

Abstract

Broadly distributed measurements of velocity, density, and turbulence spanning the inner shelf off central California indicate that (i) the average shoreward-directed internal tide energy flux ⟨FE⟩ decreases to near 0 at the 25-m isobath; (ii) the vertically integrated turbulence dissipation rate ⟨D⟩ is approximately equal to the flux divergence of internal tide energy ∂x⟨FE⟩; (iii) the ratio of turbulence energy dissipation in the interior relative to the bottom boundary layer (BBL) decreases toward shallow waters; (iv) going inshore, ⟨FE⟩ becomes decorrelated with the incoming internal wave energy flux; and (v) ⟨FE⟩ becomes increasingly correlated with stratification toward shallower water.

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URL: https://publications.hereon.de/id/40249/
Authors:Becherer, J., Moum, J., Calantoni, J., Colosi, J., Barth, J., Lerczak, J., McSweeney, J., MacKinnnon, J., Waterhouse, A.
Year:2021
In: Journal of Physical Oceanography
Volume:51
Issue:8
Pages:2553 - 2563
Publisher:AMS, Boston, MA
Type:Journalpaper
ISSN: 0022-3670
Cite as: Becherer, J.; Moum, J.; Calantoni, J.; Colosi, J.; Barth, J.; Lerczak, J.; McSweeney, J.; MacKinnnon, J.; Waterhouse, A.: Saturation of the Internal Tide over the Inner Continental Shelf. Part I: Observations. In: Journal of Physical Oceanography. Vol. 51 (2021) 8, 2553 - 2563. (DOI: /10.1175/JPO-D-20-0264.1)