Uncertainties of GPM DPR Rain Estimates Caused by DSD Parameterizations

Abstract

framework based on measured raindrop size distribution (DSD) data has been developed to assess uncertainties in DSD models employed in Ku- and Ka-band dual-wavelength radar retrievals. In this study, the rain rates and attenuation coefficients from DSD parameters derived by dual-wavelength algorithms are compared with those directly obtained from measured DSD spectra. The impact of the DSD gamma parameterizations on rain estimation from the Global Precipitation Measurement mission (GPM) Dual-Frequency Precipitation Radar (DPR) is examined for the cases of a fixed shape factor ? as well as for a constrained ??that is, a ??? relation (a relationship between the shape parameter and slope parameter ? of the gamma DSD)?by using 11 Particle Size and Velocity (Parsivel) disdrometer measurements with a total number of about 50 000 one-minute spectra that were collected during the Iowa Flood Studies (IFloodS) experiment. It is found that the DPR-like dual-wavelength techniques provide fairly accurate estimates of rain rate and attenuation if a fixed-? gamma DSD model is used, with the value of ? ranging from 3 to 6. Comparison of the results reveals that the retrieval errors from the ??? relations are generally small, with biases of less than ±10%, and are comparable to the results from a fixed-? gamma model with ? equal to 3 and 6. The DSD evaluation procedure is also applied to retrievals in which a lognormal DSD model is used.