How entraining density currents influence the stratification in a one-dimensional ocean basin
How entraining density currents influence the stratification in a one-dimensional ocean basin
Date
2005-11-03
Authors
Wåhlin, A. K.
Cenedese, Claudia
Cenedese, Claudia
Linked Authors
Alternative Title
How entraining density currents influence the ocean stratification
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Date Created
Location
DOI
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Keywords
Overflows
Plumes
Mixing parameterization
Ekman transport
Advective-diffusive balance
Filling box models
Plumes
Mixing parameterization
Ekman transport
Advective-diffusive balance
Filling box models
Abstract
The sensitivity of the basin-scale ocean stratification to the vertical distribution of plume entrainment is being analyzed. A large ocean basin supplied by dense water from an adjoining marginal sea is considered. The dense water flows into the ocean basin as an entraining density current and
interleaves at the bottom (or at the level of neutral density), where it deposits a mixture of marginal seaand basin water. As the basin water, i.e. 'old' plume water, is entrained and re-circulated in the plume a
stratification develops in the basin. The mixture deposited at the bottom hence contains an increasing fraction of marginal sea water, and the basin density increases with depth as well as with time. A
stationary solution in which diffusion of buoyancy from above is important is approached asymptotically in time.
Non-diffusive solutions to the initial transient adjustment, as well as the diffusive asymptotic state, have been studied in four different parameterizations of plume entrainment. It is shown that in the
transient regime the basin stratification and plume density are highly sensitive to how mixing is parameterized. The stationary diffusive solution that is approached asymptotically in time is less
sensitive to parameterization but depends strongly on basin topography, source water density, and buoyancy flux at the surface.
Description
Author Posting. © The Authors, 2005. This is the author's version of the work. It is posted here by permission of Elsevier B.V. for personal use, not for redistribution. The definitive version was published in Deep Sea Research Part II: Topical Studies in Oceanography 53 (2006): 172-193, doi:10.1016/j.dsr2.2005.10.019.