Accession Number : ADA192354
Title : Stability of a Coastal Upwelling Front over Topography.
Descriptive Note : Doctoral thesis,
Corporate Author : WOODS HOLE OCEANOGRAPHIC INSTITUTION MA
Personal Author(s) : Barth, John A
PDF Url : ADA192354
Report Date : Oct 1987
Pagination or Media Count : 190
Abstract : A two-layer shallow water equation model is used to investigate the linear stability of a coastal upwelling front. The model features a surface front near a coastal boundary and bottom topography which is an arbitrary function of the cross-shelf coordinate. By combining the various conversation statements for the global properties of the system, a general stability theorem is established which allows the priori determination of the stability of a coast upwelling front. Unstable waves are found for the modelled coastal upwelling front. The unstable wave motions are frontally-trapped and dominant in the upper layer. The wave propagates phase in the direction of the basic state flow and the primary energy conversion is via baroclinic instability. The effect of varying the model parameters is presented. Moving the front closer than Rossby Radii to the coastal boundary results in a decrease in the growth rate of the fastest growing wave. Increasing the overall vertical shear of the basic state flow, by either decreasing the lower layer depth or increasing the steepness of the interface, results in an increase in the growth of the fastest growing wave. A bottom sloping in the same sense as the interface results in a decrease of the growth rates and along front wavenumbers of the unstable waves in the system. Linearized bottom friction is included in the stability model and results in a decrease in the growth rates of the unstable waves by extracting energy from the system. Since the unstable mode is strongest in the upper layer, bottom friction will not stabilize the upwelling front.
Descriptors : *FRONTS(OCEANOGRAPHY), *UPWELLING, BOTTOM, BOUNDARIES, COASTAL REGIONS, DEPTH, DETERMINATION, ENERGY, ENERGY CONVERSION, EXTRACTION, FLOW, FRICTION, GLOBAL, GROWTH(GENERAL), INTERFACES, LAYERS, LINEARITY, MODELS, MOTION, PARAMETERS, RATES, SHEAR PROPERTIES, SLOPE, STABILITY, THEOREMS, TOPOGRAPHY, VERTICAL ORIENTATION, WAVES, OCEAN BOTTOM TOPOGRAPHY, CONTINENTAL SHELVES, WATER FLOW, OCEAN CURRENTS, SUBSURFACE
Subject Categories : Physical and Dynamic Oceanography
Distribution Statement : APPROVED FOR PUBLIC RELEASE