Publication Date:
2013-12-27
Description:
[1] Recent observations suggest that the mean mesoscale oceanic zonal velocity field is dominated by alternating jet-like features often referred to as striations. Here the generating dynamics of Northeast Pacific striations are explored with a set of 120-year eddy-permitting model simulations. Simulations are conducted with decreasing complexity towards idealized configurations retaining the essential dynamics and forcing necessary for striation development. For each simulation, we diagnose the spin-up of the ocean model and the sensitivity of striation generation to topography, coastal geometry, and the wind stress, which modulates the gyre circulation and the nonlinearity of the flow field. Results indicate that Northeast Pacific striations develop predominantly at the eastern boundary and migrate westward in congruence with beta-plumes both in the nonlinear and quasi-linear regimes. Mean striations have their source in the coastline geometry, which provides quasi-steady vorticity sources energized by eastern boundary current instabilities.
Print ISSN:
0094-8276
Electronic ISSN:
1944-8007
Topics:
Geosciences
,
Physics
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