The 3rd Symposium on Integrated Observing Systems

7.4
SATELLITE DERIVED LAND SURFACE TEMPERATURES FOR MODEL ASSIMILATION

Ronnie J. Suggs, NASA/MSFC, Huntsville, AL; and G. J. Jedlovec and W. M. Lapenta

Studies have shown that land surface temperature (LST) tendencies are sensitive to the surface moisture availability which is a function of soil moisture and vegetation. The assimilation of satellite derived LST tendencies into the surface energy budget of mesoscale models has shown promise in improving the representation of the complex effects of both soil moisture and vegetation within the models for short term simulations. LST derived from geostationary satellites has the potential of providing the temporal and spatial resolution needed for an LST assimilation process. This paper presents an analysis comparing the LST derived from GOES-8 infrared measurements with LST calculated by the MM5 numerical model. The satellite derived LSTs are calculated using a physical split window approach using channels 4 and 5 of GOES-8. The differences in the LST data sets, especially the tendencies, are presented and examined. Quantifying the differences between the data sets provide insight of possible weaknesses in the model parameterizations affecting the surface energy budget calculations and an indication of the potential effectiveness of assimilating LST into the models

The 3rd Symposium on Integrated Observing Systems