Relationships between total lightning and storm strength using data from the north Alabama Lightning Mapping Array (LMA)
Jessica R. Stroupe, NOAA/NWSFO, Calera, AL; and M. W. Rose and K. J. Pence
Total lightning is a relatively new data set in the meteorological field. It is separate from the lightning flash data recorded by the National Lightning Detection Network (NLDN). Instead, total lightning includes intracloud, cloud-to-cloud, and cloud-to-air lightning activity, as well as cloud-to-ground flashes, associated with thunderstorms. These data provide a better picture of the life cycle of a thunderstorm and allow for mapping of its electrical activity.
The National Weather Service (NWS) forecast office in Birmingham, Alabama, is in a unique position being located in close proximity to a total lightning detection network. The Lightning Mapping Array (LMA) in and around Huntsville, Alabama, detects and records lightning activity across northern and central Alabama. The ten receivers in the network detect radio signals emitted by the lightning which can be used to produce a three-dimensional lightning image. The total lightning data is sent through the NWS Local Data Acquisition and Dissemination System to the Birmingham forecast office. Forecasters can then access these data through the Advanced Weather Information Processing System. This information can be used individually or in combination with NLDN cloud-to-ground lightning data and real-time radar images.
Initial total lightning research suggests a relationship between intracloud lightning activity and storm strength. We will compare total lightning data to local radar data from storms within the NWS Birmingham County Warning Area. The relationships that are noted between these two data sources will aid local forecasters in their understanding of thunderstorm evolution, thereby assisting with the warning decision-making process.
Poster Session 1, Poster Session 1
Monday, 10 January 2005, 2:30 PM-4:00 PM
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