Satellite-view biases in retrieved surface temperatures in mountain areas

Ground surface temperatures retrieved from satellite data taken in mountain areas may have biases that depend strongly on the satellite viewing angle and the time of clay. Biases occur whenever there is a correlation between the viewing angle and the temperatures of subpixel mountainsides, such as w...

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Published in	Remote sensing of environment Vol. 60; no. 1; pp. 92 - 100
Main Authors	Lipton, Alan E., Ward, Joan M.
Format	Journal Article
Language	English
Published	New York, NY Elsevier Inc 1997 Elsevier Science
Subjects	Applied geophysics Atmospheric temperature Climatology Earth sciences Earth, ocean, space Exact sciences and technology Instrument errors Internal geophysics Measurement errors Sensors Temperature measurement Weather forecasting United States Colorado altitude models mountains meteorology simulation Space remote sensing satellite methods North America imagery Sierra Nevada prediction temperature errors high resolution
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ISSN	0034-4257 1879-0704
DOI	10.1016/S0034-4257(96)00165-4

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Abstract	Ground surface temperatures retrieved from satellite data taken in mountain areas may have biases that depend strongly on the satellite viewing angle and the time of clay. Biases occur whenever there is a correlation between the viewing angle and the temperatures of subpixel mountainsides, such as when the satellite's view directly faces the most brightly sunlit slopes. This paper reports simulations of this satellite-view bias effect for mountain terrain in central and southwestern Colorado and the southern Sierra Nevada in California. Surface temperatures for the simulations were computed by using a mesoscale numerical weather prediction model with a parameterization for terrain features that are at a scale finer than. the model grid resolution. The representation of terrain in the simulations was based on elevation. data with high resolution (30 m) from U.S. Geological Survey Digital Elevation. Map data sets. Biases as large as 9 C° were found while assuming a satellite sensor resolution of 14 km. Even larger biases were found with finer sensor resolutions. These biases are substantially larger than those that had previously been found from modeling with terrain data at about 90 m -resolution (3″ latitude/longitude) from the Defense Mapping Agency. The simulations suggest that satellite-view; biases could cause substantial local errors when surface temperature retrievals are used for climate diagnosis, weather analysis, soil moisture estimation, or geologic mapping.
AbstractList	Results of simulations conducted with elevation data at 30-m resolution from U.S. Geological Survey digital elevation map data sets covering regions of central and southwestern Colorado and the southern Sierra Nevada in California are reported. The results indicate that satellite-retrieved surface temperature biases in rugged mountain terrain may be as large as 9 C. With such biases, many applications of satellite-retrieved surface temperatures would be subject to substantial errors if data with such biases were used. It is suggested that in this case it may be necessary to use a numerical model to estimate the magnitude of biases under given observational conditions and then compensate for the biases before proceeding with an application. (AIAA) Ground surface temperatures retrieved from satellite data taken in mountain areas may have biases that depend strongly on the satellite viewing angle and the time of day. Biases occur whenever there is a correlation between the viewing angle and the temperatures of subpixel mountainsides, such as when the satellite's view directly faces the most brightly sunlit slopes. This paper reports simulations of this satellite-view bias effect for mountain terrain in central and southwestern Colorado and the southern Sierra Nevada in California. Surface temperatures for the simulations were computed by using a mesoscale numerical weather prediction model with a parameterization for terrain features that are at a scale finer than the model grid resolution. The representation of terrain in the simulations was based on elevation data with high resolution (30 m) from U.S. Geological Survey Digital Elevation Map data sets. Biases as large as 9 C degree were found while assuming a satellite sensor resolution of 14 km. Even larger biases were found with finer sensor resolutions. These biases are substantially larger than those that had previously been found from modeling with terrain data at about 90 m resolution (3 inches latitude/longitude) from the Defense Mapping Agency. The simulations suggest that satellite-view biases could cause substantial local errors when surface temperature retrievals are used for climate diagnosis, weather analysis, soil moisture estimation, or geologic mapping. Ground surface temperatures retrieved from satellite data taken in mountain areas may have biases that depend strongly on the satellite viewing angle and the time of clay. Biases occur whenever there is a correlation between the viewing angle and the temperatures of subpixel mountainsides, such as when the satellite's view directly faces the most brightly sunlit slopes. This paper reports simulations of this satellite-view bias effect for mountain terrain in central and southwestern Colorado and the southern Sierra Nevada in California. Surface temperatures for the simulations were computed by using a mesoscale numerical weather prediction model with a parameterization for terrain features that are at a scale finer than. the model grid resolution. The representation of terrain in the simulations was based on elevation. data with high resolution (30 m) from U.S. Geological Survey Digital Elevation. Map data sets. Biases as large as 9 C° were found while assuming a satellite sensor resolution of 14 km. Even larger biases were found with finer sensor resolutions. These biases are substantially larger than those that had previously been found from modeling with terrain data at about 90 m -resolution (3″ latitude/longitude) from the Defense Mapping Agency. The simulations suggest that satellite-view; biases could cause substantial local errors when surface temperature retrievals are used for climate diagnosis, weather analysis, soil moisture estimation, or geologic mapping.
Author	Ward, Joan M. Lipton, Alan E.
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Keywords	altitude models mountains meteorology simulation Space remote sensing satellite methods North America imagery Sierra Nevada prediction temperature errors high resolution
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Snippet	Ground surface temperatures retrieved from satellite data taken in mountain areas may have biases that depend strongly on the satellite viewing angle and the... Results of simulations conducted with elevation data at 30-m resolution from U.S. Geological Survey digital elevation map data sets covering regions of central...
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SubjectTerms	Applied geophysics Atmospheric temperature Climatology Earth sciences Earth, ocean, space Exact sciences and technology Instrument errors Internal geophysics Measurement errors Sensors Temperature measurement Weather forecasting
Title	Satellite-view biases in retrieved surface temperatures in mountain areas
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