Title of article
Surface circulation downstream of the Point Arena upwelling center
Author/Authors
Halle، نويسنده , , Christopher M. and Largier، نويسنده , , John L.، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2011
Pages
13
From page
1260
To page
1272
Abstract
Measurements from recently installed 5 MHz high-frequency radar (CODAR) stations south of Point Arena, California, are used to describe surface current patterns during the upwelling season (June–August 2007). The systems provide hourly current maps on a 5-km grid, covering a region from approximately 10 to 150 km offshore (the continental shelf into the deep ocean). These HF-radar observations provide an unprecedented view of circulation in this “coastal transition zone”, between the wind-driven circulation over the shelf and the California Current circulation offshore. Circulation patterns include: (1) bifurcation of the coastal upwelling jet downstream of Point Arena into an along-shelf (down-coast) branch and an offshore branch, and (2) a large-scale anticyclonic meander that often develops into an eddy-like recirculation south of the bifurcation. The “recirculation” feature extends well offshore, with surface currents 50–100 km from the coast consistently opposing the wind stress. The spatial and temporal evolution of the surface current features during upwelling events affects surface transport from Point Arena to areas in the south, increasing the travel time of a substantial fraction of newly upwelled water from a few days to roughly two weeks. Thus, surface currents even far offshore influence coastal transport of nutrients, phytoplankton and larvae on ecologically relevant timescales, with resultant connectivity patterns very different than implied by a simple examination of the mean flow.
Keywords
Radio oceanography , Surface currents , upwelling , Transport processes , wind-driven currents , Mesoscale processes
Journal title
Continental Shelf Research
Serial Year
2011
Journal title
Continental Shelf Research
Record number
2297150
Link To Document