Global microwave satellite observations of sea surface temperature for numerical weather prediction and climate research

Abstract

Obtaining global sea surface temperature (SST) fields for the ocean boundary condition in numerical weather prediction (NWP) models and for climate research has long been problematic. Historically, such fields have been constructed by a blendig of in situ observations from ships and buoys and satellite infrared observations from the Advanced Vey High Resolution Radiometer (AVHRR) that has been operational on NOAA satellites since November 1981. The resolution of these global SST fields is limited by the sparse coverage of in situ observation in many areas of the World Ocean and cloud contamination of AVHRR observations, which can exceed 75% over the subpolar oceans. As clouds and aerosols are essential transparent to microwave radiation, satellite microwave observation can grealty improve the sampling and resolution of global SST fields. The Advance Microwave Scanning Radiometer on the NASA Earth Observation System (EOS) Aqua satellite (AMST-E) is providing the first hihly accurate and global satellite microwave observations of SST. The potentail for AMSR-E observation to improved the sampling, resolution, and accuracy of SST fields for NWP and climate research is demonstrated from example SST fields and from an investigation of the sensitivity of NWP models to specification of the SST boundary conditio of the SST boundary condition. © 2005 American Metereological Society.