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The behavior of total lightning activity in severe Florida thunderstorms (1999)

Williams, Earle ; Boldi, Bob ; Matlin, Anne ; [et al.]

Elsevier

In: Atmospheric Research. 1999; 51(3-4): 245-265. Published 1999 Jul 01. doi: 10.1016/s0169-8095(99)00011-3.

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Publication Date: 1999-07-01

Print ISSN: 0169-8095

Electronic ISSN: 1873-2895

Topics: Geosciences , Physics

Published by Elsevier

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Total Lightning Activity Associated with Tornadic Storms (1999)

Hodanish, Stephen ; Buechler, Dennis ; Sharp, David ; [et al.]

In: CASI

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Publication Date: 2004-12-03

Description: Severe storms often have high flash rates (in excess of one flash per second) and are dominated by intracloud lightning activity. In addition to the extraordinary flash rates, there is a second distinguishing lightning characteristic of severe storms that seems to be important. When the total lightning history is examined, one finds sudden increases in the lightning rate, which we refer to as lightning "jumps," that precede the occurrence of severe weather by ten or more minutes. These jumps are typically 30-60 flashes/min, and are easily identified as anomalously large derivatives in the flash rate. This relationship is associated with updraft intensification and updraft strength is an important factor in storm severity (through the accumulation of condensate aloft and the stretching of vorticity). In several cases, evidence for diminishment of midlevel rotation and the descent of angular momentum from aloft is present prior to the appearance of the surface tornado. Based on our experience with severe and tornadic storms in Central Florida, we believe the total lightning may augment the more traditional use of NEXRAD radars and storm spotters. However, a more rigorous relation of these jumps to storm kinematics is needed if we are to apply total lightning in a decision tree that leads to improved warning lead times and decreased false alarm rates.

Keywords: Meteorology and Climatology

Type: 11th International Conference on Atmospheric Electricity; 515-518; NASA/CP-1999-209261

Format: text

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Total Lightning Activity Associated with Tornadic Storms (1999)

Hodanish, Stephen ; Weber, Mark ; Sharpe, David ; [et al.]

In: Other Sources

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Publication Date: 2019-07-17

Description: Prior studies have examined the association of lightning activity with the occurrence of severe weather. Severe storms often have high flash rates (in excess of one flash per second) and are dominated by intracloud lightning activity. Most recently, we have identified a rapid change (referred to as a "jump") in total flash rate which precedes the occurrence of severe weather by ten or more minutes. This relationship is associated with updraft intensification. In this paper we examine whether there exist unique characteristics of the total lightning and the lightning jumps associated with tornadoes in Florida, and explain how they might relate to the interaction of mesocyclonic shear, the rear flank downdraft and outflow boundaries that can lead to tornadogenesis. In several cases, evidence for diminishment of midlevel rotation and the descent of angular momentum from aloft is present prior to the appearance of the surface tornado. The relatively long lead time between the lighting jump and the occurrence of the tornado is attributed to the time lag between updraft invigoration and the boundary layer spin up of vorticity.

Keywords: Meteorology and Climatology

Type: Atmospheric Electricity; Jun 07, 1999 - Jun 11, 1999; Guntersville, AL; United States

Format: text

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Total Lightning and Radar Storm Characteristics Associated with Severe Storms in Central Florida (1998)

Matlin, Anne ; Hodanish, Stephen ; Weber, Mark ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: A number of prior studies have examined the association of lightning activity with the occurrence of severe weather and tornadoes, in particular. High flash rates are often observed in tornadic storms (Taylor, 1973; Johnson, 1980; Goodman and Knupp, 1993) but not always. Taylor found that 23% of nontornadic storms and 1% of non-severe storms had sferics rates comparable to the tornadic storms. MacGorman (1993) found that storms with mesocyclones produced more frequent intracloud (IC) lightning than cloud-to-ground (CG) lightning. MacGorman (1993) and others suggest that the lightning activity accompanying tomadic storms will be dominated by intracloud lightning-with an increase in intracloud and total flash rates as the updraft increases in depth, size, and velocity. In a recent study, Perez et al. (1998) found that CG flash rates alone are too variable to be a useful predictor of (F4, F5) tornado formation. Studies of non-tomadic storms have also shown that total lightning flash rates track the updraft, with rates increasing as the updraft intensities and decreasing rapidly with cessation of vertical growth or downburst onset (Goodman et al., 1988; Williams et al., 1989). Such relationships result from the development of mixed phase precipitation and increased hydrometer collisions that lead to the efficient separation of charge. Correlations between updraft strength and other variables such as cloud-top height, cloud water mass, and hail size have also been observed.

Keywords: Meteorology and Climatology

Type: FA14.4 , Severe Storms; Sep 14, 1998 - Sep 18, 1998; Minneapolis, MN; United States

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The Behavior of Total Lightning Activity in Severe Florida Thunderstorms (1998)

Matlin, Anne ; Raghavan, Ravi ; Goodman, Steve ; [et al.]

In: CASI

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Publication Date: 2019-07-10

Description: The development of a new observational system called LISDAD (Lightning Imaging Sensor Demonstration and Display) has enabled a study of severe weather in central Florida. The total flash rates for storms verified to be severe are found to exceed 60 flashes/min, with some values reaching 500 flashes/min. Similar to earlier results for thunderstorm microbursts, the peak flash rate precedes the severe weather at the ground by 5-20 minutes. A distinguishing feature of severe storms is the presence of lightning "jumps"-abrupt increases in flash rate in advance of the maximum rate for the storm. ne systematic total lightning precursor to severe weather of all kinds-wind, hail, tornadoes-is interpreted in terms of the updraft that sows the seeds aloft for severe weather at the surface and simultaneously stimulates the ice microphysics that drives the lightning activity.

Keywords: Meteorology and Climatology

Type: Atmospheric Research

Format: application/pdf

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