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191001.361472.01C
21-NGI4-04
19-NGI3-70, 18-NGI3-42, 17-NGI3-20, 16-NGI3-06, 20-NGI3-106 (191001-363513-1C)
10/1/2021
2022-9-30 0:0:0
Completed
$64,933.00
Climate Variability in Ocean Surface Turbulent Fluxes
Bourassa
Mark
FSU
Smith
Shawn
FSU
Climate Effects on Ecosystems, Coastal Hazards
OAR CPO
Air-sea interactions with fluxes of heat, moisture, and momentum serve as indicators of change in regional climate and weather patterns and, at smaller scales, may be linked to drought and floods and storm intensity and track. Flux-related variables are useful for forcing ocean models and testing coupled ocean/atmospheric models. Researchers are improving the quality of wind and flux products that combine data from multiple sources by the continued development of a global (over water) multi-satellite wind product and a satellite-based flux product that assimilates satellite and in situ data. The new gridding technique combines the strengths of satellite observations and numerical weather prediction analyses through a planetary boundary-layer model to produce a higher resolution surface vector wind data set. Earlier efforts resulted in the delayed-mode objective 1˚ FSU3 wind and flux product, monthly products, the quick-look 1˚ Legler Indian Ocean (currently not being produced) and the 2˚ Tropical Pacific pseudo-wind stress, which contributes to the NOAA Climate Diagnostics Bulletin. The winds products are available at https://mdc.coaps.fsu.edu/data, which is accessed by ~170 registered users from 16 countries, representing academic institutions, governmental agencies, public/non-profit entities, and the military.
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