Title :
The Aquarius salinity retrieval algorithm recent progress and remaining challenges
Author :
Meissner, Thomas ; Wentz, Frank ; Ricciardulli, L. ; Hilburn, Kyle ; Scott, James
Author_Institution :
Remote Sensing Syst., Santa Rosa, CA, USA
Abstract :
This paper summarizes the major steps of the updates in the Aquarius Level 2 ocean surface salinity (SSS) retrieval from Version 2.0 to Version 3.0, which is scheduled to be released in May 2014. We first discuss the algorithm improvements in the surface roughness correction, which also includes a retrieval of wind speeds from combined Aquarius radiometer - scatterometer measurements, improvements in the correction for the reflected galactic radiation, and masking of undetected RFI. We then present a validation study for the new salinity product, which consists in an intercomparison between Aquarius, in-situ buoy salinity measurements from the ARGO network, moored PMEL buoys and the HYCOM model salinity field.
Keywords :
oceanographic techniques; salinity (geophysical); ARGO network; Aquarius Level 2 ocean surface salinity; Aquarius radiometer-scatterometer measurements; Aquarius salinity retrieval algorithm; HYCOM model salinity field; moored PMEL buoys; reflected galactic radiation; surface roughness correction; undetected RFI masking; wind speed retrieval; Radar measurements; Rain; Rough surfaces; Sea measurements; Sea surface; Wind speed; Aquarius; L-band microwave radiometers; L-band wind speeds; Ocean Surface Salinity;
Conference_Titel :
Microwave Radiometry and Remote Sensing of the Environment (MicroRad), 2014 13th Specialist Meeting on
Conference_Location :
Pasadena, CA
Print_ISBN :
978-1-4799-4645-7
DOI :
10.1109/MicroRad.2014.6878906
