Please use this identifier to cite or link to this item:

Sensitivity of the Yoshida jet to the parameterization of vertical mixing. Do easterly winds imply equatorial upwelling?

File Description Size Format  
uhm phd 9230519 r.pdf Version for non-UH users. Copying/Printing is not permitted 3.38 MB Adobe PDF View/Open
uhm phd 9230519 uh.pdf Version for UH users 3.35 MB Adobe PDF View/Open

Item Summary Schneider, Niklas 2009-07-15T18:03:57Z 2009-07-15T18:03:57Z 1992
dc.description Thesis (Ph. D.)--University of Hawaii at Manoa, 1992.
dc.description Includes bibliographical references (leaves 95-101)
dc.description Microfiche.
dc.description xii, 101 leaves, bound ill. 29 cm
dc.description.abstract This study investigates the sensitivity of the dynamics of the equatorial ocean to the parameterization of vertical mixing and focuses on the circulation in the meridional-vertical plane driven by easterly winds: the Yoshida jet. A new high resolution, numerical model of a zonally independent, equatorial channel helps explore this question and includes three parameterizations, all of which increase mixing for decreasing Richardson numbers. It compares the smooth increase of eddy coefficients traditionally used in general circulation models, the dramatic increase of the eddy coefficients for small Richardson numbers recently observed in the equatorial Pacific, and a combination of a mixing mechanism based on the diagnostic adjustment of the water column to noncritical Richardson numbers and of a bulk mixed-layer model. The main numerical result is that the meridional and vertical velocity fields in the surface layer are very sensitive to the strength of mixing implied by the different parameterizations. For the smooth Richardson number dependence of the eddy coefficients. equatorial upwelling due to easterly winds reaches the surface. The dramatically increasing eddy coefficients for small Richardson numbers yield reduced equatorial upwelling rates in the surface layer. The diagnostic adjustment of the Richardson number shows downwelling in response to easterly winds! A simple model explains the wind drift at the equator in the presence of a meridional density gradient and reproduces this reversal of the meridional and vertical flows. The density gradient causes a vertically dependent pressure gradient force which is partially balanced by the meridional component of the Coriolis force, indicating that the zonal flow and the density are nearly in geostrophic balance. The residual of this balance determines the sign of the meridional shear and depends critically on the size of the eddy coefficient. A critical value at which the residual and the vertical velocity change signs is of the order of 10^-3m^2s^-1. This value is of the same order as measured in the surface equatorial Pacific and used in general circulation models. The physics of the reversal of the meridional circulation are so basic it is likely they are active in the ocean and three dimensional circulation models.
dc.language.iso en-US
dc.relation Theses for the degree of Doctor of Philosophy (University of Hawaii at Manoa). Oceanography; no. 2743
dc.rights All UHM dissertations and theses are protected by copyright. They may be viewed from this source for any purpose, but reproduction or distribution in any format is prohibited without written permission from the copyright owner.
dc.title Sensitivity of the Yoshida jet to the parameterization of vertical mixing. Do easterly winds imply equatorial upwelling?
dc.type Thesis
dc.type.dcmi Text
Appears in Collections: Ph.D. - Oceanography

Please email if you need this content in ADA-compliant format.

Items in ScholarSpace are protected by copyright, with all rights reserved, unless otherwise indicated.