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Eddy-induced variability in Southern Ocean abyssal mixing on climatic timescales
Sheen, K.L.; Naveira Garabato, A.C.; Brearly, J.A.; Meredith, M.P.; Polzin, K.L.; Smeed, D.A.; Forryan, A.; King, B.A.; Sallée, J.-B.; St. Laurent, L.; Thurnherr, A.M.; Toole, J.M.; Waterman, S.N.; Watson, A.J. (2014). Eddy-induced variability in Southern Ocean abyssal mixing on climatic timescales. Nature Geoscience 7: 577-582.
In: Nature Geoscience. Nature Publishing Group: London. ISSN 1752-0894, more
Peer reviewed article  

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Authors  Top 
  • Sheen, K.L.
  • Naveira Garabato, A.C.
  • Brearly, J.A.
  • Meredith, M.P.
  • Polzin, K.L.
  • Smeed, D.A.
  • Forryan, A.
  • King, B.A.
  • Sallée, J.-B.
  • St. Laurent, L.
  • Thurnherr, A.M.
  • Toole, J.M.
  • Waterman, S.N.
  • Watson, A.J.

    The Southern Ocean plays a pivotal role in the global ocean circulation and climate. There, the deep water masses of the world ocean upwell to the surface and subsequently sink to intermediate and abyssal depths, forming two overturning cells that exchange substantial quantities of heat and carbon with the atmosphere. The sensitivity of the upper cell to climatic changes in forcing is relatively well established. However, little is known about how the lower cell responds, and in particular whether small-scale mixing in the abyssal Southern Ocean, an important controlling process of the lower cell, is influenced by atmospheric forcing. Here, we present observational evidence that relates changes in abyssal mixing to oceanic eddy variability on timescales of months to decades. Observational estimates of mixing rates, obtained along a repeat hydrographic transect across Drake Passage, are shown to be dependent on local oceanic eddy energy, derived from moored current meter and altimetric measurements. As the intensity of the regional eddy field is regulated by the Southern Hemisphere westerly winds, our findings suggest that Southern Ocean abyssal mixing and overturning are sensitive to climatic perturbations in wind forcing.

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