20th International Conference on Interactive Information and Processing Systems (IIPS) for Meteorology, Oceanography, and Hydrology

P2.4

NOAA’s Operational Geostationary Sea Surface Temperature Products

Eileen Maturi, NOAA/NESDIS, Washington, DC; and A. Harris, N. Nalli, C. Merchant, S. MacCallum, R. E. Meiggs, and R. Potash

The National Oceanic and Atmospheric Administration’s Office of Satellite Data Processing and Distribution are generating operational sea surface temperature (SST) retrievals from GOES-9/10 and 12 satellite imagers. The direct regression based algorithms have been replaced by retrieval schemes based on radiative transfer modeling (RTM). These new RTM algorithms generate the operational SST retrievals for GOES-9, 10 and 12. They are situated at longitude 154.5 E, 135 W and 75 W respectively, thus allowing the acquisition of high temporal SST retrievals from 30 degrees west to 100 degrees east. Combined with data from the Meteosat Second Generation (MSG) SEVIRI instrument, there is now the capability to determine the diurnal cycle of SST throughout most of the world's oceans. This is an important step in the production of a global high resolution SST analysis that combines polar and geostationary observations.

The GOES-12 satellite imager presents a particular challenge because it has only two channels (3.9 and 11 um) available to generate SSTs. The former is difficult to use during the day because of solar contributions to the signal that derive from surface reflection and atmospheric scattering. The current scheme for GOES-12 consists of (1) screening out areas of significant sunglint by a daytime retrieval scheme to adopt a solar correction that uses typical aerosol loading but accounts for variability in sun-pixel-satellite geometry; (2) a new cloud masking methodology based on a probabilistic (Bayesian) approach to detection using thermal infrared imagery and radiances estimated from the OPTRAN model, and (3) the use of aerosol estimates in GOES-SST corrections. The GOES-12 SST retrievals are comparable in accuracy to those from GOES-9 and 10.

The GOES-SST products generated from these algorithms include regional hourly and 3-hourly hemispheric imagery, 24 hour merged composites and a combined POES/GOES 10-km resolution demonstration SST analysis. Future plans include the merging of data from the EUMETSAT MSG satellite and an International GOES Workshop on Global Algorithm Development.

extended abstract  Extended Abstract (152K)

Poster Session 2, IIPS Poster Session II
Wednesday, 14 January 2004, 2:30 PM-4:00 PM, Room 4AB

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