The impact of the spatial variability in bottom roughness on tidal dynamics and energetics, a case study: the M
2
surface tide in the North European Basin |
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| Authors: | Boris A Kagan Ekaterina V Sofina Ebrahim Rashidi |
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| Institution: | 1. St. Petersburg Branch, Shirshov Institute of Oceanology, Russian Academy of Sciences, Pervaya Linia 30, 199053, St. Petersburg, Russia
2. Russian State Hydrometeorological University, Malookhtinskii 98, 195196, St. Petersburg, Russia
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| Abstract: | A modified version of the 3D finite-element hydrostatic model QUODDY-4 is used to quantify the changes in the dynamics and energetics of the M 2 surface tide in the North European Basin, induced by the spatial variability in bottom roughness. This version differs from the original one, as it introduces a module providing evaluation of the drag coefficient in the bottom boundary layer (BBL) and by accounting for the equilibrium tide. The drag coefficient is found from the resistance laws for an oscillatory rotating turbulent BBL over hydrodynamically rough and incompletely rough underlying surfaces, describing how the wave friction factor as well as other resistance characteristics depend on the dimensionless similarity parameters for the BBL. It is shown that the influence of the spatial variability in bottom roughness is responsible for some specific changes in the tidal amplitudes, phases, and the maximum tidal velocities. These changes are within the model noise, while the changes in the averaged (over a tidal cycle) horizontal wave transport and the averaged dissipation of barotropic tidal energy may be of the same orders of magnitude as are the above energetic characteristics as such. Thus, contrary to present views, ignoring the spatial variability in bottom roughness at least in the North European Basin is only partially correct: it is valid for the tidal dynamics, but is liable to break down for the tidal energetics. |
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