Journal
JOURNAL OF APPLIED METEOROLOGY AND CLIMATOLOGY
Volume 58, Issue 9, Pages 1905-1930Publisher
AMER METEOROLOGICAL SOC
DOI: 10.1175/JAMC-D-19-0031.1
Keywords
Hail; Precipitation; Cloud microphysics; Radiative transfer; Microwave observations; Satellite observations
Categories
Funding
- NASA Precipitation Measurement Missions Science Team [NNX16AH29G]
- NASA [NNX16AH29G, 904188] Funding Source: Federal RePORTER
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Global Precipitation Measurement (GPM) Microwave Imager (GMI) brightness temperatures (BTs) were simulated over a case of severe convection in Texas using ground-based S-band radar and the Atmospheric Radiative Transfer Simulator. The median particle diameter D-o of a normalized gamma distribution was varied for different hydrometeor types under the constraint of fixed radar reflectivity to better understand how simulated GMI BTs respond to changing particle size distribution parameters. In addition, simulations were conducted to assess how low BTs may be expected to reach from realistic (although extreme) particle sizes or concentrations. Results indicate that increasing D-o for cloud ice, graupel, and/or hail leads to warmer BTs (i.e., weaker scattering signature) at various frequencies. Channels at 166.0 and 183.31 +/- 7 GHz are most sensitive to changing D-o of cloud ice, channels at >= 89.0 GHz are most sensitive to changing D-o of graupel, and at 18.7 and 36.5 GHz they show the greatest sensitivity to hail D-o. Simulations contrasting BTs above high concentrations of small (0.5-cm diameter) and low concentrations of large (20-cm diameter) hailstones distributed evenly across a satellite pixel showed much greater scattering using the higher concentration of smaller hailstones with BTs as low as 110, 33, 22, 46, 100, and 106 K at 10.65, 18.7, 36.5, 89.0, 166.0, and 183.31 +/- 7 GHz, respectively. These results suggest that number concentration is more important for scattering than particle size given a constant S-band radar reflectivity.
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