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?Mixing and Transformation in a Deep Western Boundary Current: A Case Study

Carl P. Spingys
  • Function : Author
Alberto C. Naveira Garabato
  • Function : Author
Sonya Legg
  • Function : Author
Kurt L. Polzin
  • Function : Author
E. Povl Abrahamsen
  • Function : Author
Alexander Forryan
  • Function : Author
Eleanor E. Frajka-Williams
  • Function : Author


Water-mass transformation by turbulent mixing is a key part of the deep-ocean overturning, as it drives the upwelling of dense waters formed at high latitudes. Here, we quantify this transformation and its underpinning processes in a small Southern Ocean basin: the Orkney Deep. Observations reveal a focusing of the transport in density space as a deep western boundary current (DWBC) flows through the region, associated with lightening and densification of the current's denser and lighter layers, respectively. These transformations are driven by vigorous turbulent mixing. Comparing this transformation with measurements of the rate of turbulent kinetic energy dissipation indicates that, within the DWBC, turbulence operates with a high mixing efficiency, characterized by a dissipation ratio of 0.6 to 1 that exceeds the common value of 0.2. This result is corroborated by estimates of the dissipation ratio from microstructure observations. The causes of the transformation are unraveled through a decomposition into contributions dependent on the gradients in density space of the: dianeutral mixing rate, isoneutral area, and stratification. The transformation is found to be primarily driven by strong turbulence acting on an abrupt transition from the weakly stratified bottom boundary layer to well-stratified off-boundary waters. The reduced boundary layer stratification is generated by a downslope Ekman flow associated with the DWBC's flow along sloping topography, and is further regulated by submesoscale instabilities acting to restratify near-boundary waters. Our results provide observational evidence endorsing the importance of near-boundary mixing processes to deep-ocean overturning, and highlight the role of DWBCs as hot spots of dianeutral upwelling.
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insu-03683270 , version 1 (31-05-2022)


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Carl P. Spingys, Alberto C. Naveira Garabato, Sonya Legg, Kurt L. Polzin, E. Povl Abrahamsen, et al.. ?Mixing and Transformation in a Deep Western Boundary Current: A Case Study. JOURNAL OF PHYSICAL OCEANOGRAPHY, 2021, 51, pp.1205-1222. ⟨10.1175/JPO-D-20-0132.1⟩. ⟨insu-03683270⟩
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