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Ocean Science An interactive open-access journal of the European Geosciences Union

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Ocean Sci., 9, 1003-1014, 2013
© Author(s) 2013. This work is distributed
under the Creative Commons Attribution 3.0 License.
Research article
21 Nov 2013
Microstructure measurements and estimates of entrainment in the Denmark Strait overflow plume
V. Paka1, V. Zhurbas2,3, B. Rudels4, D. Quadfasel5, A. Korzh1, and D. Delisi6 1Shirshov Institute of Oceanology, Atlantic Branch, Prospect Mira 1, 236000 Kaliningrad, Russia
2Shirshov Institute of Oceanology, Nakhimovsky Prospect 36, 117997 Moscow, Russia
3Marine Systems Institute, Tallinn University of Technology, Akadeemia Road 15a, 12618 Tallinn, Estonia
4Finnish Meteorological Institute, P.O. BOX 503, 00101 Helsinki, Finland
5Institute of Oceanography, University of Hamburg, Bundesstraße 53, 20146 Hamburg, Germany
6NorthWest Research Associates, 4118 148th Ave NE, Redmond, WA 98052, USA
Abstract. To examine processes controlling the entrainment of ambient water into the Denmark Strait overflow (DSO) plume/gravity current, measurements of turbulent dissipation rate were carried out by a quasi-free-falling (tethered) microstructure profiler (MSP). The MSP was specifically designed to collect data on dissipation-scale turbulence and fine thermohaline stratification in an ocean layer located as deep as 3500 m. The task was to perform microstructure measurements in the DSO plume in the lower 300 m depth interval including the bottom mixed layer and the interfacial layer below the non-turbulent ambient water. The MSP was attached to a Rosette water sampler rack equipped with a SeaBird CTDO and an RD Instruments lowered acoustic Doppler current profiler (LADCP). At a chosen depth, the MSP was remotely released from the rack to perform measurements in a quasi-free-falling mode. Using the measured vertical profiles of dissipation, the entrainment rate as well as the bottom and interfacial stresses in the DSO plume were estimated at a location 200 km downstream of the sill at depths up to 1771 m. Dissipation-derived estimates of entrainment were found to be much smaller than bulk estimates of entrainment calculated from the downstream change of the mean properties in the plume, suggesting the lateral stirring due to mesoscale eddies rather than diapycnal mixing as the main contributor to entrainment. Dissipation-derived bottom stress estimates are argued to be roughly one third the magnitude of those derived from log velocity profiles. In the interfacial layer, the Ozmidov scale calculated from turbulence dissipation rate and buoyancy frequency was found to be linearly proportional to the overturning scale extracted from conventional CTD data (the Thorpe scale), with a proportionality constant of 0.76, and a correlation coefficient of 0.77.

Citation: Paka, V., Zhurbas, V., Rudels, B., Quadfasel, D., Korzh, A., and Delisi, D.: Microstructure measurements and estimates of entrainment in the Denmark Strait overflow plume, Ocean Sci., 9, 1003-1014, doi:10.5194/os-9-1003-2013, 2013.
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