2009
DOI: 10.1016/j.atmosres.2008.06.011
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The intracloud/cloud-to-ground lightning ratio in Southeastern Brazil

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Cited by 27 publications
(13 citation statements)
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“…The negative CG flash density distribution is strongly influenced by the terrain height (that is, the altitude above the sea level), as it can be seen from a detailed comparison of Figure 3 with the map of terrain height in Figure 4. The comparison shows that the maximum values occur just in the southern border of the mountains with a blue minimum in the center region of the mountains (see de Souza et al [2009] for more details). On the other hand, the negative LPCCG flash density distribution is less influenced by the altitude, showing a maximum in the northwest region.…”
Section: Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…The negative CG flash density distribution is strongly influenced by the terrain height (that is, the altitude above the sea level), as it can be seen from a detailed comparison of Figure 3 with the map of terrain height in Figure 4. The comparison shows that the maximum values occur just in the southern border of the mountains with a blue minimum in the center region of the mountains (see de Souza et al [2009] for more details). On the other hand, the negative LPCCG flash density distribution is less influenced by the altitude, showing a maximum in the northwest region.…”
Section: Resultsmentioning
confidence: 99%
“…The spatial distribution for all positive CG flashes is also apparently influenced by altitude, as it can be seen comparing Figure 6 with the map of terrain height in Figure 4. For instance, the maximum in Figure 6 occur in the north border of the higher mountains (see de Souza et al [2009] for more details). On the other hand, the spatial distribution for positive LPCCG flashes is not.…”
Section: Resultsmentioning
confidence: 99%
“…Lightning flashes can be grouped into two categories: those striking the ground and those not doing so. The intracloud to cloud‐to‐ground lightning flash ratio has been extensively studied in many regions all over the world [e.g., Pierce , ; Prentice and Mackerras , ; MacGorman et al ., ; Boccippio et al ., ; Orville et al ., ; Soriano and de Pablo , ; Kuleshov et al ., ; de Souza et al ., ]. It is generally believed that intracloud, intercloud, and cloud‐to‐air flashes (all of which do not involve ground) comprise around 70–75% of lightning discharges, and that cloud‐to‐ground flashes comprise 25–30%.…”
Section: Methodology For Lightning‐type Identificationmentioning
confidence: 99%
“…This estimation is traditionally obtained from the measured number of CG flashes, by assuming a value for Z . Until recently however, Z estimates have been relatively rare and have a wide range of values: Mackerras et al [1998] estimated a global value of Z of 3.5, De Souza et al [2008] found Z ranging from 2 to 12 in Southeastern Brazil, and Rivas and de Pablo [2007] obtained an average Z of 3.48 with large variability in their domain of study over the Iberian Peninsula. A recent estimate over the continental United States, using the NLDN and the Optical Transient Detector from 1995 to 1999, yielded a somewhat smaller value of 2.94 ± 1.28 with large spatial variability [ Boccippio et al , 2001, Figure 2].…”
Section: Coincident Lightningmentioning
confidence: 99%