Mixing dynamics on the inner shelf of the Ebro Delta
Imma Bastida, Jesús Planella, Elena Roget, Jorge Guillén, Pere Puig and Xavier Sánchez

Turbidity, CTD, and temperature and shear microstructure data recorded along a 25 km transect from 8 to 69 m depth across the Ebro Delta shelf (northwestern Mediterranean) are presented. The water column was stratified and prior to the campaign the regional southwest flow was measured to have superimposed diurnal and sub-inertial components. The bottom boundary layer (BBL) at all stations deeper than 20 m has a vertical extension of 3 to 9 m, increasing to 12 m at the deeper stations and even to 14 m at a station at 45 m depth outside the studied transect. The law of the wall was identified at almost all stations with an extension ranging from 40% to 100% of that of the BBL. At some stations high dissipation rates were found in the interior of the bottom layer. The study shows the correspondence between the turbidity contents and the local mixing processes at the BBL and suggests that sub-critical reflection of internal waves could play an important role in boundary mixing. Our data also suggest that during the campaign, after two consecutive short episodes of high winds, the first baroclinic mode shifted to the second one.

Keywords: bottom boundary layer, nepheloid layer, inner shelf, turbulence, turbidity, internal waves, mixing
Contents of this volume Sci. Mar. 76S1 : 31-43 Back PDF
 
 
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