论文信息 - Near real time global optimum interpolated microwave SSTs: applications to hurricane intensity forecasting

Near real time global optimum interpolated microwave SSTs: applications to hurricane intensity forecasting

Knowledge of the sea surface temperature (SST) is important for accurate intensity forecasting. On May 4, 2002, NASA launched the Earth Observing System (EOS) AQUA spacecraft which carries NASDA's Advanced Microwave Scanning Radiometer Earth Observing System (AMSR-E), the first polar orbiting microwave radiometer capable of measuring accurate global through-cloud sea surface temperatures (SST). Although microwave SSTs have a lower spatial resolution than the more traditional infrared SSTs, their thru-cloud SST capabilities significantly improve coverage. Global, daily, near real time SSTs at 25 km resolution were calculated using optimum interpolation (OI). The value of the AMSR-E OI SSTs was tested in the Statistical Hurricane Intensity Prediction Scheme (SHIPS) model run operationally by the National Hurricane Center. Overall, the weekly 100 km SSTs used operationally by NHC accurately represented ocean temperatures and substitution of the AMSRE OI SSTs resulted in only slight forecast improvements (1.3% in the North Atlantic and 6.9% in the East Pacific). However, when oceanic features not resolved by the weekly analysis were present (such as cold wakes), the daily AMSR-E OI SSTs increased forecast accuracy considerably (12% to 60% for Hurricane Genevieve).

Chelle Gentemann | C. Gentemann

[1] C. Donlon,et al. Diurnal signals in satellite sea surface temperature measurements , 2003 .

[2] C. J. Neumann,et al. Statistical forecasts of tropical cyclone intensity for the North Atlantic basin , 1979 .

[3] J. Whitehead,et al. One million dollars per mile? The opportunity costs of Hurricane evacuation , 2003 .

[4] Mark DeMaria,et al. A Statistical Hurricane Intensity Prediction Scheme (SHIPS) for the Atlantic Basin , 1994 .

[5] Kerry A. Emanuel,et al. Thermodynamic control of hurricane intensity , 1999, Nature.

[6] Robert Pinkel,et al. Diurnal cycling: observations and models of the upper-ocean response to diurnal heating, cooling, and wind mixing. Technical report , 1986 .

[7] Joseph J. Cione,et al. Sea Surface Temperature Variability in Hurricanes: Implications with Respect to Intensity Change , 2003 .

[8] L. Gandin. Objective Analysis of Meteorological Fields , 1963 .

[9] Thomas M. Smith,et al. Improved Global Sea Surface Temperature Analyses Using Optimum Interpolation , 1994 .

[10] M. Garstang,et al. Hurricane! : coping with disaster : progress and challenges since Galveston, 1900 , 2003 .