DocumentCode
1552197
Title
Observations of East Coast upwelling conditions in synthetic aperture radar imagery
Author
Clemente-Colón, Pablo ; Yan, Xiao-Hai
Author_Institution
NOAA Sci. Center, NOAA, Camp Springs, MD, USA
Volume
37
Issue
5
fYear
1999
fDate
9/1/1999 12:00:00 AM
Firstpage
2239
Lastpage
2248
Abstract
Seasonal coastal upwelling in the U.S. Mid-Atlantic coastal ocean normally occurs during the summer months because of generally alongshore southerly wind episodes. Southerly winds force an offshore surface Ekman flow over the inner continental shelf. Colder and nutrient-rich waters from below upwell toward the surface replacing offshore-flowing surface waters. Synthetic Aperture Radar (SAR) observations from the European Remote Sensing (ERS) satellite ERS-2 before and after upwelling-favorable wind episodes in early summer 1996 along the New Jersey coast are presented. Lower backscatter conditions appearing in the SAR imagery after the onset of upwelling demonstrate the influence of the upwelling regime on the sea surface roughness. Satellite sea surface temperature (SST) observations and in-situ sea temperature vertical profiles confirm upwelling conditions. Three key mechanisms are suggested to explain the lower radar returns observed under upwelling conditions, an increase in the atmospheric marine boundary layer stability, an increase in the viscosity of surface waters, and the presence of biogenic surfactants in the upwelling region
Keywords
backscatter; oceanographic regions; oceanographic techniques; radar cross-sections; radar imaging; remote sensing by radar; synthetic aperture radar; AD 1996; East Coast; Mid-Atlantic coastal ocean; New Jersey; North Atlantic; SAR imagery; SST; USA; air sea interaction; alongshore southerly wind; atmosphere ocean interaction; backscattering; biogenic surfactant; circulation; coast; dynamics; inner continental shelf; marine boundary layer; measurement technique; ocean; offshore surface Ekman flow; offshore-flowing surface water; radar backscatter; radar remote sensing; sea surface temperature; season; seasonal coastal upwelling; stability; summer; synthetic aperture radar; thermal structure; upwelling conditions; vertical profile; Backscatter; Ocean temperature; Remote sensing; Rough surfaces; Satellites; Sea measurements; Sea surface; Sea surface roughness; Surface roughness; Synthetic aperture radar;
fLanguage
English
Journal_Title
Geoscience and Remote Sensing, IEEE Transactions on
Publisher
ieee
ISSN
0196-2892
Type
jour
DOI
10.1109/36.789620
Filename
789620
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