Journal
JOURNAL OF APPLIED METEOROLOGY AND CLIMATOLOGY
Volume 52, Issue 11, Pages 2549-2566Publisher
AMER METEOROLOGICAL SOC
DOI: 10.1175/JAMC-D-12-0311.1
Keywords
Cloud microphysics; Freezing precipitation; Radars; Radar observations
Categories
Funding
- NSF [AGS-1143948]
- NOAA/Office of Oceanic and Atmospheric Research under NOAA-University of Oklahoma Cooperative [NA11OAR4320072]
- Div Atmospheric & Geospace Sciences
- Directorate For Geosciences [1143948] Funding Source: National Science Foundation
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Polarimetric radar measurements in winter storms that produce ice pellets have revealed a unique signature that is indicative of ongoing hydrometeor refreezing. This refreezing signature is observed within the low-level subfreezing air as an enhancement of differential reflectivity Z(DR) and specific differential phase K-DP and a decrease of radar reflectivity factor at horizontal polarization Z(H) and copolar correlation coefficient (hv). It is distinct from the overlying melting-layer brightband signature and suggests that unique microphysical processes are occurring within the layer of hydrometeor refreezing. The signature is analyzed for four ice-pellet cases in central Oklahoma as observed by two polarimetric radars. A statistical analysis is performed on the characteristics of the refreezing signature for a case of particularly long duration. Several hypotheses are presented to explain the appearance of the signature, along with a summary of the pros and cons for each. It is suggested that preferential freezing of small drops and local ice generation are plausible mechanisms for the appearance of the Z(DR) and K-DP enhancements. Polarimetric measurements and scattering calculations are used to retrieve microphysical information to explore the validity of the hypotheses. The persistence and repetitiveness of the signature suggest its potential use in operational settings to diagnose the transition between freezing rain and ice pellets.
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