Reply to “Comment on ‘Abyssal Upwelling and Downwelling Driven by Near-Boundary Mixing’”
Author(s)
McDougall, Trevor J.; Ferrari, Raffaele
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Ledwell, in a comment on McDougall and Ferrari, discusses the dianeutral upwelling and downwelling that occurs near isolated topographic features, by performing a buoyancy budget analysis that integrates the diffusive buoyancy fluxes only out to a set horizontal distance from the topography. The consequence of this choice of control volume is that the magnitude of the area-integrated diffusive buoyancy flux decreases to zero at the base of a topographic feature resulting in a net dianeutral upwelling of water. Based on this result, Ledwell argues that isolated topographic features are preferential locations for the upwelling of waters from the abyss. However the assumptions behind Ledwell's analysis may or may not be typical of abyssal mixing in the ocean. McDougall and Ferrari developed general expressions for the balance between area-integrated dianeutral advection and diffusion, and then illustrated these general expressions using the very simple assumption that the magnitude of the buoyancy flux per unit area at the top of the turbulent boundary layer was constant. In these pedagogical illustrations, McDougall and Ferrari concentrated on the region near the top (rather than near the base) of isolated topographic features, and they found net sinking of abyssal waters. Here we show that McDougall and Ferrari's conclusion that isolated topographic features cause dianeutral downwelling is in fact a result that applies for general geometries and for all forms of bottom-intensified mixing profiles at heights above the base of such topographic features. Keywords: Abyssal circulation; Upwelling/downwelling
Date issued
2018-03Department
Massachusetts Institute of Technology. Department of Earth, Atmospheric, and Planetary SciencesJournal
Journal of Physical Oceanography
Publisher
American Meteorological Society
Citation
McDougall, Trevor J. and Raffaele Ferrari. “Reply to ‘Comment on “Abyssal Upwelling and Downwelling Driven by Near-Boundary Mixing.”’” Journal of Physical Oceanography 48, 3 (March 2018): 749–753 © 2018 American Meteorological Society
Version: Final published version
ISSN
0022-3670
1520-0485