Abstract
The research vessel-based Conductivity Temperature Depth profiler (CTD) provides underwater measurements of the bulk sea surface temperature (SST) at the depths of shallower than 5 m. The CTD observations of the seas around Taiwan provide useful data for comparison with SST of MODIS (Moderate Resolution Imaging Spectroradiometers) aboard Aqua and Terra satellites archived by JAXA (Japan Aerospace Exploration Agency). We produce a high-resolution (1 km) MODIS SST by using Multi-Channel SST (MCSST) algorithm. There were 1516 cloud-free match-up data pairs of MODIS SST and in situ measurements during the period from 2003 - 2005. The difference of the root mean square error (RMSE) of satellite observations from each platform during the day and at night was: 0.88°C in Aqua daytime, 0.71°C in Aqua nighttime, 0.71°C in Terra daytime, and 0.60°C in Terra nighttime. The total analysis of MODIS-derived SST shows good agreement with a bias of 0.03°C and RMSE of 0.75°C. The analyses indicate that the bias of Aqua daytime was always positive throughout the year and the large RMSE should be attributed to the large positive bias (0.45°C) under diurnal warming. It was also found that the bias of Terra daytime was usually negative with a mean bias of -0.41°C; its large RMSE should be treated with care because of low solar radiation in the morning. Key word: SST, Taiwan, MODIS, Satellite observation
Highlights
With the launch of technologically advanced and innovative satellite instruments like AVHRR (Advanced Vary High Resolution Radiometer) and MODIS (Moderate Resolution Imaging Spectroradiometer) high resolution sea surface temperature (SST) data are provided for atmospheric and oceanic observations
The MODIS SSTs processed at the Japan Aerospace Exploration Agency/Earth Observation Research Center (JAXA/EORC) are expected to be more accurate than those estimated from the global algorithm for MODIS because they are retrieved from a regional SST algorithm that is adjusted to the western North Pacific water (Hosoda et al 2007)
Hosoda et al (2007) retrieved MODIS SST from the JAXA/EORC ocean products around Japan to develop and validate in situ measurements by drifting buoys. They indicated that the SST retrieved from their newly developed near real time Multi-Channel SST (MCSST) algorithm was more accurate than that retrieved from a global algorithm
Summary
With the launch of technologically advanced and innovative satellite instruments like AVHRR (Advanced Vary High Resolution Radiometer) and MODIS (Moderate Resolution Imaging Spectroradiometer) high resolution sea surface temperature (SST) data are provided for atmospheric and oceanic observations. Hosoda et al (2007) retrieved MODIS SST from the JAXA/EORC ocean products around Japan to develop and validate in situ measurements by drifting buoys. They indicated that the SST retrieved from their newly developed near real time MCSST algorithm was more accurate than that retrieved from a global algorithm. The present paper is an effort to assess the accuracies of SST retrieved from MODIS in comparison with ship based CTD observations These in situ CTD measurements were collected by research vessels in the waters around Taiwan during the period of 2003 to 2005.
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