The extension of lightning flashes from thunderstorms near Cape Canaveral, Florida

Fuelberg, Henry E.; Walsh, Ryan J.; Preston, Ari D.

doi:10.1002/2014jd022105

Cited by 10 publications

(11 citation statements)

References 36 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…As a result, it would be reasonable to assume that the storms occurring during this diurnal segment, given the weakening of vertical turbulent mixing and greater influence of midlevel winds, distribute the cloud charge in a more stratified manner, resulting in flashes of larger horizontal/vertical spans. Examples of these would be the observed large horizontal IC flashes termed “anvil crawlers” [ Fuelberg et al , ] or CG lightning flashes in mesoscale stratiform precipitation [ Lang et al , ]. This cycle is disrupted around sunrise, when the surface heating gradually rebuilds the vertical moisture transport and invigorates vertical mixing.…”

Section: Discussionmentioning

confidence: 99%

Diurnal characteristics of lightning flashes detected over the São Paulo lightning mapping array

et al. 2015

View full text Add to dashboard Cite

This study examines diurnal variations of lightning flash characteristics observed by the Lightning Mapping Array in São Paulo, Brazil. The diurnal flash counts exhibit the typical afternoon convective maximum. The mean source altitude demonstrates a discrete increase that is temporally coincident with the local sunrise. The mean horizontal and vertical flash extents each attain a maximum (minimum) around local sunrise (afternoon, i.e., 13:00-17:00 local solar time). In addition, joint histograms of flash horizontal and vertical extents show that the majority of the flashes occurring during the afternoon convection are shorter and more comparable in size, and the differences between the horizontal and vertical extents are reduced. Conversely, flashes preceding and following the peak in afternoon convection are less symmetric, with larger horizontal than vertical extents. We discuss whether these observations could be partially explained by the diurnal variations in the convectively induced mixing regimes that control thundercloud charge regions and associated charge separation distances. The documented diurnal flash characteristics closely match recently published findings on the diurnal variation of the peak currents of cloud-to-ground flashes. Possible physical mechanisms for these observations are discussed.

show abstract

Section: Discussionmentioning

confidence: 99%

Diurnal characteristics of lightning flashes detected over the São Paulo lightning mapping array

et al. 2015

View full text Add to dashboard Cite

show abstract

“…The radar station is about 70 km away from the location of the lightning accident, and it completes the body scanning process every 6 min. Fuelberg et al (2014) measured the horizontal development distance of different types of lightning channels that extend from a thunderstorm cloud; three are used for the ground flash process, and three are used for the cloud flash process. There are two ways to measure the horizontal development distance of a lightning channel: the horizontal distance from the edge of the anvil to the lightning strike point (0 dBz) or from the edge of the precipitation area (18 dBz) to the lightning strike point.…”

Section: Methodsmentioning

confidence: 99%

Characteristics of a multi-stroke “bolt from the blue” lightning-type that caused a fatal disaster

Fan

Zhang

Yin³

et al. 2019

Geomatics, Natural Hazards and Risk

View full text Add to dashboard Cite

show abstract

“…Our definition of nonisolated was highly restrictive. There are many other scenarios by which lightning can extend between clouds, and flashes can travel long distances from their parent cloud [Fuelberg et al, 2014]. We also did not consider lightning extensions within the same cell (Figure 1), flashes within or extending from an anvil [e.g., Dye and Willett, 2007;Kuhlman et al, 2009], or bolts from the blue [Rison et al, 2003].…”

Section: 1002/2016jd025734mentioning

confidence: 99%

“…Another difficulty in forecasting lightning cessation is that flashes can extend far from both the convective core and cloud edge. Fuelberg et al [2014] documented IC flashes within anvils over Florida that extended greater than 50 km away from the storm's 30 dBZ core. They also measured the horizontal straight-line distance from the edge of the cloud (0 dBZ) to overhead the CG strike location.…”

Section: Introductionmentioning

confidence: 99%

“…Since there was no reflectivity over the strike location, it was considered a "bolt from the blue" [Rison et al, 2003]. Fuelberg et al [2014] found that most bolts from the blue in Florida extend less than 4 km from cloud edge, and none extended farther than 9 km. However, bolts from the blue have been observed to extend more than 25 mi (15 km) from cloud edge (NOAA, http://www.lightningsafety.noaa.gov/bolt_blue.htm).…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Using radar‐derived parameters to forecast lightning cessation for nonisolated storms

Davey

Fuelberg

2017

JGR Atmospheres

Self Cite

View full text Add to dashboard Cite

Lightning impacts operations at the Kennedy Space Center (KSC) and other outdoor venues leading to injuries, inconvenience, and detrimental economic impacts. This research focuses on cases of “nonisolated” lightning which we define as one cell whose flashes have ceased although it is still embedded in weak composite reflectivity (Z ≥ 15 dBZ) with another cell that is still producing flashes. The objective is to determine if any radar‐derived parameters provide useful information about the occurrence of lightning cessation in remnant storms. The data set consists of 50 warm season (May–September) nonisolated storms near KSC during 2013. The research utilizes the National Lightning Detection Network, the second generation Lightning Detection and Ranging network, and polarized radar data. These data are merged and analyzed using the Warning Decision Support System‐Integrated Information at 1 min intervals. Our approach only considers 62 parameters, most of which are related to the noninductive charging mechanism. They included the presence of graupel at various thermal altitudes, maximum reflectivity of the decaying storm at thermal altitudes, maximum connecting composite reflectivity between the decaying cell and active cell, minutes since the previous flash, and several others. Results showed that none of the parameters reliably indicated lightning cessation for even our restrictive definition of nonisolated storms. Additional research is needed before cessation can be determined operationally with the high degree of accuracy required for safety.

show abstract

The extension of lightning flashes from thunderstorms near Cape Canaveral, Florida

Cited by 10 publications

References 36 publications

Diurnal characteristics of lightning flashes detected over the São Paulo lightning mapping array

Diurnal characteristics of lightning flashes detected over the São Paulo lightning mapping array

Characteristics of a multi-stroke “bolt from the blue” lightning-type that caused a fatal disaster

Using radar‐derived parameters to forecast lightning cessation for nonisolated storms

Contact Info

Product

Resources

About