Climatology of large peak current cloud‐to‐ground lightning flashes in southeastern Brazil

Pinto, O.; Pinto, I. R. C. A.; Campos, Débora Rebollo de; Naccarato, Kleber P.

doi:10.1029/2009jd012029

Cited by 12 publications

(23 citation statements)

References 34 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…this value is lower than the values calculated from observations by Lyons et al (1998a) and Pinto et al (2009), 5.4 and 2.8, respectively. Negative LCLFs in Canada are less numerous for peak currents > 200 kA (average ratio of 0.6), compared to the findings of Lyons et al (1998a) and Pinto et al (2009), 4.1 and 1.1, respectively. LCLFs with stroke multiplicity ≥10 are primarily associated with negative CG flashes and detected in all seasons except winter (table 2).…”

Section: Multiplicity Multiplicitycontrasting

confidence: 43%

A decade of cloud‐to‐ground lightning in Canada: 1999–2008. Part 2: Polarity, multiplicity and first‐stroke peak current

Kochtubajda¹,

Burrows

2010

Atmosphere-Ocean

View full text Add to dashboard Cite

show abstract

Section: Multiplicity Multiplicitycontrasting

confidence: 43%

A decade of cloud‐to‐ground lightning in Canada: 1999–2008. Part 2: Polarity, multiplicity and first‐stroke peak current

Kochtubajda¹,

Burrows

2010

Atmosphere-Ocean

View full text Add to dashboard Cite

show abstract

“…However, for the positive LPCCG lightning, two high-concentration regions, one around the mouth of the Pearl River and the other to the north of the Leizhou Peninsula, are connected by a belt of scattered high-density lightning locations. Differences between positive and negative LPCCG lightning densities have also been reported by Lyons et al (1998) and Pinto et al (2009). Table 2 lists the average lightning density over land and offshore regions, including the ratios of the average density over land to that over water.…”

Section: Spatiotemporal Characteristics Of Lightning Activitymentioning

confidence: 61%

“…In previous studies (e.g., Cummins et al, 1998), positive CG (PCG) lightning flashes with currents of <10 kA were removed from the data as they might be a misinterpretation of cloud lightning. Furthermore, following the subjective definition of Lyons et al (1998) and Pinto et al (2009) of LPCCG lightning, the CG lightning with an absolute peak (Lyons et al, 1998), and a ratio of 3% has been reported over southeastern Brazil (Pinto et al, 2009). High Resolution Full Climatology TRMM/Lightning Imaging Sensor (LIS) 0.5 • data were used to determine the total lightning activity in the study region.…”

Section: Data and Their Processingmentioning

confidence: 99%

“…In addition to the above considerations, we were further concerned with occurrences of large peak-current CG (LPCCG) lightning (peak currents of >75 kA) and the possible contrast between CG lightning activity over land and over offshore waters. LPCCG lightning, because of its destructiveness and association with sprites and elves in the stratosphere and mesosphere, has been of particular concern in the research community (e.g., Lyons et al, 1998;Kochtubajda et al, 2006;Pinto et al, 2009). In addition, the landoffshore lightning comparison provides another perspective from which to understand the impact of underlying surfaces on convective activity and lightning discharge.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Climatology of lightning activity in South China and its relationships to precipitation and convective available potential energy

et al. 2016

View full text Add to dashboard Cite

This study examined lightning activity and its relationship to precipitation and convective available potential energy (CAPE) in South China during 2001-12, based on data from the Guangdong Lightning Location System, the Tropical Rainfall Measuring Mission satellite, and the ERA-Interim dataset. Two areas of high lightning density are identified: one over the Pearl River Delta, and the other to the north of Leizhou Peninsula. Large peak-current cloud-to-ground (LPCCG) lightning (>75 kA) shows weaker land-offshore contrasts than total CG lightning, in which negative cloud-to-ground (NCG) lightning occurs more prominently than positive cloud-to-ground (PCG) lightning on land. While the frequency of total CG lightning shows a main peak in June and a second peak in August, the LPCCG lightning over land shows only a single peak in June. The ratio of positive LPCCG to total lightning is significantly greater during February-April than during other times of the year. Diurnally, CG lightning over land shows only one peak in the afternoon, whereas CG lightning offshore shows morning and afternoon peaks. The rain yield per flash is on the order of 10 7 -10 8 kg per flash across the analysis region, and its spatial distribution is opposite to that of lightning density. Our data show that lightning activity over land is more sensitive than that over offshore waters to CAPE. The relationships between lightning activity and both precipitation and CAPE are associated with convection activity in the analysis region. : Climatology of lightning activity in South China and its relationship to precipitation and convective available potential energy.

show abstract

“…Lightning has been the object of many studies since the end of the nineteenth century, beginning with recordings using still cameras [ Hoffert , 1888], followed by the use of time‐resolved photography, instrumented towers, video cameras, lightning locating and mapping systems, triggered lightning facilities, and, more recently, satellite optical sensors. Lightning characteristics based on these techniques have been published by many authors [e.g., Rakov et al , 1994; Diendorfer et al , 1998, 2002; Valine and Krider , 2002; Pinto et al , 2003; Rakov and Huffines , 2003; Schulz et al , 2005; Hussein et al , 2006; Miki et al , 2006; Pinto et al , 2006; Biagi et al , 2007; Pinto et al , 2007; Flache et al , 2008; Pinto et al , 2009]. Recently, high‐speed video cameras have added much to our understanding of natural downward lightning physics [e.g., Ballarotti et al , 2006; Kong et al , 2008; Saba et al , 2008; Campos and Saba , 2009; Saba et al , 2009].…”

Section: Introductionmentioning

confidence: 99%

A comparative study of negative cloud‐to‐ground lightning characteristics in São Paulo (Brazil) and Arizona (United States) based on high‐speed video observations

Saraiva¹,

Saba²,

Pinto³

et al. 2010

J. Geophys. Res.

Self Cite

View full text Add to dashboard Cite

[1] There are only a few prior reports that detail accurate measurements of the number of strokes in natural negative cloud-to-ground (CG) lightning flashes. These are known as "accurate-stroke-count" studies, and they have been performed using various instruments and techniques. Here, we will examine the lightning characteristics produced by warm-season thunderstorms in two different climate regimes (southern Arizona, United States, and São Paulo, Brazil) using the same instrumentation. The lightning parameters were obtained from high-speed video recordings and time-correlated data provided by lightning locating systems (LLS). The use of these instruments has allowed us to measure the number of strokes in each flash and their polarity, the interstroke intervals, the number of different ground contacts, and the durations of the continuing currents. Altogether 209 negative flashes were recorded on video in the United States and 223 in Brazil (containing a total of 1681 strokes), and the majority of these flashes had at least one stroke reported by a LLS. Statistical analyses of these data sets as a whole did not show any significant differences in the characteristics of negative CG flashes from warm-season thunderstorms in both locations. The mean values for all data are as follows: video multiplicity, 3.9; single-stroke flashes, 19.5%; flash duration, 226.5 ms; interstroke interval, 61.5 ms; long continuing current, 17.5%; multigrounded flashes, 49.5%. Those characteristics were very similar to the well-accepted values for negative flashes in other regions. However, there were large storm-to-storm variations.

show abstract

Climatology of large peak current cloud‐to‐ground lightning flashes in southeastern Brazil

Cited by 12 publications

References 34 publications

A decade of cloud‐to‐ground lightning in Canada: 1999–2008. Part 2: Polarity, multiplicity and first‐stroke peak current

A decade of cloud‐to‐ground lightning in Canada: 1999–2008. Part 2: Polarity, multiplicity and first‐stroke peak current

Climatology of lightning activity in South China and its relationships to precipitation and convective available potential energy

A comparative study of negative cloud‐to‐ground lightning characteristics in São Paulo (Brazil) and Arizona (United States) based on high‐speed video observations

Contact Info

Product

Resources

About