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Surface wind modification near mid-latitude ocean fronts : observational and dynamical analysis

ScholarsArchive at Oregon State University

Field Value
Title Surface wind modification near mid-latitude ocean fronts : observational and dynamical analysis
Names O'Neill, Larry W. (creator)
Chelton, Dudley (advisor)
Date Issued 2007-09-10T23:03:25Z (iso8601)
Internet Media Type application/pdf
Note Graduation date: 2008
Abstract Interactions between surface winds and meanders in mid-latitude sea surface temperature
(SST) fronts with horizontal length scales of 100-1000 km are investigated
from satellite observations and numerical simulations. Observations from the Sea-
Winds scatterometer on the QuikSCAT satellite show that the magnitude, direction,
curl, and divergence of the surface wind stress and 10-m winds are well correlated with
small-scale SST structures associated with large-scale ocean currents. Detailed analysis
of the response of the surface winds to SST fronts from these satellite observations
exposed shortcomings in previous conceptual hypotheses governing the relationships
between surface winds and SST. To gain understanding of the physical mechanisms
needed to explain the satellite wind observations, we performed a numerical experiment
simulating the atmospheric flow over meandering SST fronts. Based on these
results, a new conceptual model is constructed to explain the dynamical response of
the surface winds consistent with the satellite observations and numerical simulation
analysis.
Of particular importance was the finding that the wind stress curl and divergence
fields observed from QuikSCAT are linearly related to the crosswind and downwind
components of the SST gradient, respectively. This relationship was generally thought
to result from modification of the vertical turbulent mixing of momentum within the
atmospheric boundary layer (ABL). We show that this mechanism is overly simplistic;
nearly all of the terms in the momentum budget are needed to explain these
observed statistical relationships, consistent with recent work. SST-induced surface
wind changes are a manifestation of more complicated changes to the vertical structure
of the dynamic forces within the ABL.
Among the most significant of several new findings presented here concerns the
influence of SST on the meridional wind field. Since winds are generally westerly at
mid-latitudes, SST-induced changes in meridional wind cause changes in the surface
wind direction that significantly influence the wind stress curl and divergence fields
through modification of streamline curvature and diffluence. From numerical and
analytical results, these meridional wind perturbations are shown to result from a
baroclinic Ekman adjustment mechanism modified by horizontal advection.
Genre Thesis
Topic QuikSCAT
Identifier http://hdl.handle.net/1957/6391

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