2013
DOI: 10.1175/jamc-d-12-0275.1
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A Robust C-Band Hydrometeor Identification Algorithm and Application to a Long-Term Polarimetric Radar Dataset

Abstract: A new 10-category, polarimetric-based hydrometeor identification algorithm (HID) for C band is developed from theoretical scattering simulations including wet snow, hail, and big drops/melting hail. The HID is applied to data from seven wet seasons in Darwin, Australia, using the polarimetric C-band (C-POL) radar, to investigate microphysical differences between monsoon and break periods. Scattering simulations reveal significant Mie effects with large hail (diameter . 1.5 cm), with reduced reflectivity and en… Show more

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Cited by 136 publications
(131 citation statements)
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“…Since BR was developed using a Darwin monsoonal dataset, we anticipate that study included modest convective diversity into congestus clouds, maritime continental and deeper convective 25 properties (those supporting additional graupel growth). Darwin may exhibit even more intense 'Break' (e.g., more continental characteristics) convective cell periods and associated DSD changes interspersed with maritime tropical 'Active' monsoonal conditions than observed from Amazon convection (e.g., May and Ballinger, 2007;Dolan et al, 2013;Schumacher et al, 2015;Giangrande et al, 2014aGiangrande et al, , 2016b. However, it appears use of BR would minimize the contributions from congestus or shallower organized convective precipitation found under Amazon conditions.…”
Section: Amazon Precipitation Properties: Cumulative Dataset Charactementioning
confidence: 98%
“…Since BR was developed using a Darwin monsoonal dataset, we anticipate that study included modest convective diversity into congestus clouds, maritime continental and deeper convective 25 properties (those supporting additional graupel growth). Darwin may exhibit even more intense 'Break' (e.g., more continental characteristics) convective cell periods and associated DSD changes interspersed with maritime tropical 'Active' monsoonal conditions than observed from Amazon convection (e.g., May and Ballinger, 2007;Dolan et al, 2013;Schumacher et al, 2015;Giangrande et al, 2014aGiangrande et al, , 2016b. However, it appears use of BR would minimize the contributions from congestus or shallower organized convective precipitation found under Amazon conditions.…”
Section: Amazon Precipitation Properties: Cumulative Dataset Charactementioning
confidence: 98%
“…Tmatrix simulations were performed for temperatures between −15 and 0 • C, liquid water fractions between 5 and 55 %, and particle densities between 0.2 and 0.9 g cm −3 (Pruppacher and Klett, 1978;Dolan and Rutledge, 2009;Dolan et al, 2013). The microphysical parameters used for simulations are summarized in Table 1.…”
Section: Hca Optimization For Graupel Identificationmentioning
confidence: 99%
“…The wide ranges from which microphysical parameters are randomly chosen take into account mechanisms that involved graupel formation and accretion during cloud development and are consistent with graupel microphysics described in literature cited above. Some classification algorithms do not distinguish graupel from small and dense ice hydrometeors, such as small hail (Straka et al, 2000), while others categorize it as either low-density or high-density graupel (Dolan et al, 2013). A wide, single set of graupel microphysics to take into account the different types of graupel including low-density graupel to small hail was used.…”
Section: Hca Optimization For Graupel Identificationmentioning
confidence: 99%
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“…As discussed in Stith et al (2014), for the 6 June 2012 Colorado case, data from the CSU-CHILL S-band dualpolarization Doppler radar in Greeley, CO were employed (Junyent et al, 2013). The dual-polarization capabilities of the CHILL radar facilitated the identification of the dominant hydrometeor types in the 6 June case using a fuzzy-logic hydrometeor identification developed by Dolan et al (2013). The 15 June 2012 case was out of range of the CHILL radar, so data from the National Weather Service (NWS) Weather Surveillance Radar 1998 Doppler (WSR-88D or NEXRAD) radar located near Denver, CO (KFTG) were used.…”
Section: Radar Datamentioning
confidence: 99%