DocumentCode
1137045
Title
Wind speed effect on L-band brightness temperature inferred from EuroSTARRS and WISE 2001 field experiments
Author
Etcheto, Jacqueline ; Dinnat, Emmanuel P. ; Boutin, Jacqueline ; Camps, Adriano ; Miller, J. ; Contardo, Stéphanie ; Wesson, J. ; Font, Jordi ; Long, David G.
Author_Institution
Centre Nat. de la Recherce Scientifique, Univ. Pierre-et-Marie Curie, Paris, France
Volume
42
Issue
10
fYear
2004
Firstpage
2206
Lastpage
2213
Abstract
The results from two field experiments in the Mediterranean Sea are used to study the wind speed dependence of brightness temperature at L-band. During the EuroSTARRS airborne experiment, an L-band radiometer made measurements across a large wind speed gradient, enabling us to study this dependence at high wind speed. We compare our results with a two-scale emissivity model using several representations of the sea state spectrum. While the results are encouraging, unfortunately the accuracy of the measurements does not permit us to distinguish between the so-called twice Durden and Vesecky spectrum and the Elfouhaily spectrum above 7 m·s-1. The effect of foam is certainly small. During the WISE 2001 field experiment carried on an oil rig, we studied this dependence at low wind speed, finding an abrupt decrease of the wind speed effect on the brightness temperature below 3 m·s-1.
Keywords
data acquisition; microwave measurement; ocean waves; oceanographic regions; oceanographic techniques; radiometry; remote sensing; seawater; wind; Durden spectrum; Elfouhaily spectrum; EuroSTARRS airborne experiment; EuroSTARRS field experiments; L-band brightness temperature; L-band radiometer; Mediterranean Sea; Vesecky spectrum; WISE 2001 field experiments; foam effect; oil rig; sea state spectrum; sea surface salinity; sea waves; two-scale emissivity model; wind speed dependence; wind speed effect; Brightness temperature; Etching; L-band; Microwave radiometry; Ocean temperature; Sea measurements; Sea surface; Soil measurements; Wavelength measurement; Wind speed; Foam; L-band; radiometry; sea state spectrum; sea surface salinity; wave; wind;
fLanguage
English
Journal_Title
Geoscience and Remote Sensing, IEEE Transactions on
Publisher
ieee
ISSN
0196-2892
Type
jour
DOI
10.1109/TGRS.2004.834644
Filename
1344172
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