Construction of surface wind stress fields with high temporal resolution using ERS-1 scatterometer data |
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Authors: | Masahisa Kubota Hidekazu Yokota |
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Affiliation: | (1) School of Marine Science and Technology, Tokai University, 3-20-1, Orido, 424-8610 Shimizu, Shizuoka, Japan;(2) Tokai University Computing Center, 1117 Kitakaname, 259-1292 Hiratsuka, Kanagawa, Japan |
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Abstract: | Wind stress fields with high temporal resolution over the North Pacific have been constructured by using ERS-1 scatterometer data. A simple objective analysis, a successive correction method, was used to construct the fields. Several necessary parameters used in the method are examined by a simulation based on the climatological data. The meridional decorrelation scale of the wind stress depends strongly on the season, while the zonal decorrelation scale is highly stable. We determined the decorrelation scale depending on the location and the time and applied to the successive correction method. The monthly mean field constructed by averaging the daily mean data is free from an aliasing error, which is a serious problem if a simple monthly averaging is applied. The daily wind stress data obtained in the present study represent small time- and spatial-scale variation and large amplitudes compared with data interpolated from simple monthly mean data. The satellite-derived data are also compared with in situ data obtained by meteorological buoys. The satellite wind speeds are lower than in situ wind speeds for every buoy. This underestimation is not due to the present objective analysis, but due to the original data, the ERS-1 Scatterometer Value-Added Product. |
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Keywords: | Microwave scatterometer ERS-1 successive correction method Comprehensive Ocean Atmosphere Data Set decorrelation scale TOGA/TAO buoy JMA buoy |
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