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Seasonal Cross-Shelf Flow Structure, Upwelling Relaxation, and the Alongshelf Pressure Gradient in the Northern California Current System

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Title Seasonal Cross-Shelf Flow Structure, Upwelling Relaxation, and the Alongshelf Pressure Gradient in the Northern California Current System
Names McCabe, Ryan M. (creator)
Hickey, Barbara M. (creator)
Dever, Edward P. (creator)
MacCready, Parker (creator)
Date Issued 2015-01 (iso8601)
Note This is the publisher’s final pdf. The published article is copyrighted by the American Meteorological Society and can be found at: http://journals.ametsoc.org/loi/phoc.
Abstract Moored observations are used to investigate the seasonal change in vertical structure of the cross-shelf
circulation at a midshelf location in the northern California Current System. A streamwise–normal coordinate
system is employed to eliminate meander- and eddy-induced biases in the cross-shelf flow that are unaccounted
for with an alternative, commonly applied approach. The resulting flow structure develops an
organized pattern midway through the upwelling season. In particular, under upwelling-favorable conditions
an onshore return layer occurs just beneath the offshore surface flow, and a third offshore-directed layer exists
at depth that does not appear to satisfy Ekman dynamics (to within 9 m of the bottom). Both subsurface layers
strengthen in time over the upwelling season. Mechanisms to explain the mean structure are evaluated, and it
is suggested that the timing of the development and strengthening of both the interior onshore return flow and
the offshore near-bottom layer are consistent with the seasonally changing direction and magnitude of the
large-scale alongshelf sea level gradient. The change to a poleward sea level gradient initiates a seasonal
relaxation of upwelled isopycnals that likely leads to the near-bottom flow. Late-season enhancement of the
interior onshore return flow is related to the alongshelf surface wind stress but appears to form as a consequence
of offshore transport in the near-bottom layer and the need to satisfy coastal mass balance.
Genre Article
Topic Geographic location/entity
Identifier McCabe, R. M., Hickey, B. M., Dever, E. P., & MacCready, P. (2015). Seasonal Cross-Shelf Flow Structure, Upwelling Relaxation, and the Alongshelf Pressure Gradient in the Northern California Current System. Journal of Physical Oceanography, 45(1), 209-227. doi:10.1175/JPO-D-14-0025.1

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