Polarimetric Tornado Detection

A. Ryzhkov, T. Schuur, D. Burgess, D. Zrnic
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引用次数: 204

Abstract

Polarimetric radars are shown to be capable of tornado detection through the recognition of tornadic debris signatures that are characterized by the anomalously low cross-correlation coefficient hv and differential reflectivity ZDR. This capability is demonstrated for three significant tornadic storms that struck the Oklahoma City, Oklahoma, metropolitan area. The first tornadic debris signature, based on the measurements with the National Severe Storms Laboratory’s Cimarron polarimetric radar, was reported for a storm on 3 May 1999. Similar signatures were identified for two significant tornadic events during the Joint Polarization Experiment (JPOLE) in May 2003. The data from these storms were collected with a polarimetric prototype of the Next-Generation Weather Radar (NEXRAD). In addition to a small-scale debris signature, larger-scale polarimetric signatures that might be relevant to tornadogenesis were persistently observed in tornadic supercells. The latter signatures are likely associated with lofted light debris (leaves, grass, dust, etc.) in the inflow region and intense size sorting of hydrometeors in the presence of strong wind shear and circulation.
极化龙卷风探测
极化雷达通过识别具有异常低互相关系数hv和微分反射率ZDR特征的龙卷风碎片特征,显示出能够进行龙卷风探测。这种能力在袭击俄克拉何马州俄克拉何马市大都会地区的三次重大龙卷风风暴中得到了证明。根据美国国家强风暴实验室(National Severe Storms Laboratory)的Cimarron极化雷达的测量,第一个龙卷风碎片特征被报告为1999年5月3日的风暴。在2003年5月的联合极化实验(JPOLE)中,两次重要的龙卷风事件也发现了类似的特征。这些风暴的数据是用下一代天气雷达(NEXRAD)的偏振原型收集的。除了小规模的碎片特征外,在龙卷风超级单体中持续观察到可能与龙卷风形成有关的更大规模的极化特征。后一种特征可能与入流区轻碎屑(叶、草、尘等)的飘浮以及在强风切变和环流作用下水成物的强烈粒度分选有关。
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