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Impact of Density Gradients on Net Sediment Transport into the Wadden Sea
Hans Burchard, Götz Flöser, Joanna Staneva, Thomas H. Badewien and Rolf Riethmüller
Journal of Physical Oceanography
Volume 38, Issue 3, pp. 566-587,
DOI: 10.1175/2007JPO3796.1
Received: 10 March 2007;
Final Form: 26 June 2007
Print: March 2008
Abstract
This study tests the hypothesis that horizontal density gradients have the potential to significantly contribute
to the accumulation of suspended particulate matter (SPM) in the Wadden Sea. It is shown by means
of long-term observations at various positions in the Wadden Sea of the German Bight that the water in the
inner regions of the Wadden Sea is typically about 0.5-1.0 kg m-3 less dense than the North Sea water.
During winter this occurs mostly because of freshwater runoff and net precipitation; during summer it
occurs mostly because of differential heating. It is demonstrated with idealized one-dimensional water
column model simulations that the interaction of such small horizontal density gradients with tidal currents
generates net onshore SPM fluxes. Major mechanisms for this are tidal straining, estuarine circulation, and
tidal mixing asymmetries. Three-dimensional model simulations in a semienclosed Wadden Sea embayment
with periodic tidal forcing show that SPM with sufficiently high settling velocity (ws = 10 -3 m s-1) is
accumulating in the Wadden Sea Bight because of density gradients. This is proven through a comparative
model simulation in which the dynamic effects of the density gradients are switched off, with the consequence
of no SPM accumulation. These numerical model results motivate future targeted field studies in
different Wadden Sea regions with the aim to further support the hypothesis.
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