Airborne Observations of a Catalina Eddy

Summertime low-level winds over the ocean adjacent to the California coast are typically from the north, roughly parallel to the coastline. Past Point Conception the flow often turns eastward, thereby generating cyclonic vorticity in the California Bight. Clouds are frequently present when the cyclo...

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Bibliographic Details
Published in:Monthly weather review 2013-10, Vol.141 (10), p.3300-3313
Main Authors: PARISH, Thomas R, RAHN, David A, LEON, Dave
Format: Article
Language:English
Subjects:
Atmospheric circulation
Blocking
Boundary layers
Circulation
Cloud structure
Clouds
Coastal
Coastal circulation
Coastal environments
Coasts
Cyclonic circulation
Cyclonic motion
Earth, ocean, space
Eddies
Exact sciences and technology
External geophysics
Fog
Horizontal
Marine
Meteorology
Mountains
Pressure distribution
Pressure field
Research aircraft
Topography
Vortices
Vorticity
Wind
Winds
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Summary:Summertime low-level winds over the ocean adjacent to the California coast are typically from the north, roughly parallel to the coastline. Past Point Conception the flow often turns eastward, thereby generating cyclonic vorticity in the California Bight. Clouds are frequently present when the cyclonic motion is well developed and at such times the circulation is referred to as a Catalina eddy. Onshore flow south of the California Bight associated with the eddy circulation can result in a thickening of the low-level marine stratus adjacent to the coast. During nighttime hours the marine stratus typically expands over a larger area and moves northward along the coast with the cyclonic circulation. A Catalina eddy was captured during the Precision Atmospheric Marine Boundary Layer Experiment in June of 2012. Measurements were made of the cloud structure in the marine layer and the horizontal pressure field associated with the cyclonic circulation using the University of Wyoming King Air research aircraft. Airborne measurements show that the coastal mountains to the south of Los Angeles block the flow, resulting in enhanced marine stratus heights and a local pressure maximum near the coast. The horizontal pressure field also supports a south–north movement of marine stratus. Little evidence of leeside troughing south of Santa Barbara, California, was observed for this case, implying that the horizontal pressure field is forced primarily through topographic blocking by the coastal terrain south of Los Angeles, California, and the ambient large-scale circulation associated with the mean flow.
ISSN:0027-0644
1520-0493
DOI:10.1175/MWR-D-13-00029.1