C. Caracciolo scite author profile

Abstract. The drop size distribution (DSD) is a fundamental property of rainfall because the shape of the distribution reflects the physics of rain formation processes. Given the lack of studies on the DSD at mid-latitudes, the present work focuses on the microphysical characterization of precipitation events occurring in Italy, using two different types of disdrometer. A large number of different rain events was collected: they underwent microphysical analysis by computing the Z-R relationships, observing the average DSDs and DSD parameters, fitting the real distribution for different rainfall rate categories and applying convective (C) – stratiform (S) discrimination algorithms. A general agreement with past works at mid-latitudes is found both in the Z-R relationship and in DSD parameters. The rain distribution is well described by a gamma DSD and only in some cases (especially the light rain events) by an exponential DSD. Marked differences are observed in DSD parameters and Z-R relationships between C and S episodes. The use of disdrometers for areas covered by multiparametric radar is suggested and will be performed in the near future.

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Comparison between Pludix and impact/optical disdrometers during rainfall measurement campaigns

Caracciolo

Prodi

Uijlenhoet

2006

Atmospheric Research

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Rain drop size distribution over the Tibetan Plateau

Porcú

D’Adderio

Prodi

et al. 2014

Atmospheric Research

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C. Caracciolo

DEVEX-disdrometer evaluation experiment: Basic results and implications for hydrologic studies

Analysis of the moments and parameters of a gamma DSD to infer precipitation properties: A convective stratiform discrimination algorithm

Precipitation classification at mid-latitudes in terms of drop size distribution parameters

Comparison between Pludix and impact/optical disdrometers during rainfall measurement campaigns

Rain drop size distribution over the Tibetan Plateau

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