• DocumentCode
    1447670
  • Title

    A Physically Based Screen for Precipitation Over Complex Surfaces Using Passive Microwave Observations

  • Author

    Bytheway, Janice L. ; Kummerow, Christian D.

  • Author_Institution
    Dept. of Atmos. Sci., Colorado State Univ., Fort Collins, CO, USA
  • Volume
    48
  • Issue
    1
  • fYear
    2010
  • Firstpage
    299
  • Lastpage
    313
  • Abstract
    Physically based passive microwave precipitation retrievals are difficult to develop over land because high nonuniform land emissivity values are difficult to distinguish from those of clouds. This paper uses an empirical approach to determine the covariance of emissivity at different microwave window channels and relies on this covariance to estimate the portion of the observed brightness temperatures that may be attributable to rainfall. One year (2006) of global cloud-free surface emissivity values were retrieved using data sets from multiple instruments on NASA´s Aqua satellite. Correlations between the emissivities at different channels were developed for use in an empirical model within an optimal estimation retrieval. The optimal estimation retrieves surface temperature, total column water vapor, cloud water, and the emissivity at the 10.7-GHz horizontally polarized channel. From this retrieval and the covariance of emissivities, the 89.0-GHz brightness temperature at both polarizations can be estimated. Significant differences between the observed and retrieved high-resolution brightness temperatures are used to screen for precipitation, and results are compared to ground-based radar data for several study regions representing a variety of land surface types in the U.S. The Heidke Skill Score is used to determine the robustness of this methodology and, in all cases, demonstrates at least some increase in skill relative to random chance.
  • Keywords
    brightness; emissivity; geophysical techniques; land surface temperature; microwave measurement; rain; remote sensing by radar; Heidke Skill Score; NASA Aqua satellite; brightness temperatures; cloud water; cloud-free surface emissivity; clouds; frequency 10.7 GHz; frequency 89.0 GHz; ground-based radar data comparison; land emissivity values; microwave window channels; passive microwave observation; precipitation; rainfall; surface temperature; total column water vapor; Emission; microwave measurements; remote sensing; rough surfaces; terrestrial atmosphere;
  • fLanguage
    English
  • Journal_Title
    Geoscience and Remote Sensing, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0196-2892
  • Type

    jour

  • DOI
    10.1109/TGRS.2009.2027434
  • Filename
    5256206