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Use of the vertical reflectivity profile for identification of anomalous propagation

Published online by Cambridge University Press:  11 September 2001

P P Alberoni
Affiliation:
ARPA-Servizio Meteorologico Regionale, viale Silvani 6, 40122 Bologna, Italy
T Andersson
Affiliation:
Swedish Meteorological and Hydrological Institute, S-60176 Norrköping, Sweden
P Mezzasalma
Affiliation:
ARPA-Servizio Meteorologico Regionale, viale Silvani 6, 40122 Bologna, Italy
D B Michelson
Affiliation:
Swedish Meteorological and Hydrological Institute, S-60176 Norrköping, Sweden
S Nanni
Affiliation:
ARPA-Servizio Meteorologico Regionale, viale Silvani 6, 40122 Bologna, Italy
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Abstract

Anomalous propagation (anaprop), analogous to the upper mirage in the visual wavelengths, is still a major problem in radar meteorology. This phenomenon assumes particular importance in automatic recognition and estimation of rainfall. Anaprop echoes from terrain features such as hills and coasts often give echoes up to 50-60 dBZ, equivalent to heavy rain or hail in severe thunderstorms. Anaprop echoes from sea waves may be comparable in strength to those from moderate precipitation and also form similar patterns. Based on the evidence that the vertical reflectivity profile of precipitation is quite different from the anaprop profile, two methods for anaprop identification are presented. The method proposed by the Servizio Meteorologico Regionale (SMR, Italy) simply uses the operational scan procedure to discriminate between precipitation and anaprop. At the Swedish Meteorological and Hydrological Institute an ‘ad hoc’ scan strategy has been developed in order to obtain much more detail of the lowest reflectivity profile. A number of statistical parameters have been used to achieve a better discrimination between precipitation, land and sea clutter. A number of case studies, representing different echo intensities and patterns, and including a case of anaprop with embedded precipitation, are presented to assess the impact of these methods.

Type
Research Article
Copyright
© Royal Meteorological Society

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