Abstract
A comprehensive review of cloud-to-ground (CG) lightning observations in Brazil is presented. Brazil is the largest country in the tropical region and it is believed to have the largest cloud-to-ground (CG) lightning activity in the world, estimated from thunderstorm days and satellite data in about 50 millions CG lightning flashes every year. Emphasis is given to recent observations made by lightning location systems and high-speed cameras in the Southeast region of the country. At the present time, they correspond to the largest CG lightning data set available for the tropics. Some specific parameters emerging from these observations are quantified. The observations are compared with similar ones made in other tropical and temperate countries, as well as with past observations obtained by other techniques in Brazil.
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References
Abidin HZ, Ibrahim R (2003) Thunderstorm day and ground flash density in Malaysia. Proceedings of the Nuclear Power and Energy Conference (PECon), Bangi, Malaysia
Ballarotti MG, Saba MMF, Pinto O Jr (2006) A new performance evaluation of the Brazilian Lightning Location System (RINDAT) based on high-speed camera observations of natural negative ground flashes. Proceedings of the 19th International Lightning Detection Conference (ILDC), Tucson, AZ
Berger G, Zoro R (2004) Lightning density in Indonesia: Is the Guinness book of records right? Proceedings of the 1st International Conference on Lightning Physics and Effects, Belo Horizonte
Bhikha B, Ojelede ME, Annegarn HJ et al. (2006) Advancing lightning counts by using LIS efficiency factor derived from comparison with SAWS lightning detection network. Proceedings of the LIS International Workshop, Huntsville, AL
Blakeslee RJ, Bailey JC, Pinto O Jr et al. (2003) The Rondônia lightning detection network: network description, science objectives, data processing/archival, methodology, and results. Proceedings of the XII International Conference on Atmospheric Electricity, Versailles, France
Campos DR, Pinto O Jr (2007) Investigation about the intensity and location of the maximum cloud-to-ground lightning flash density in the city of São Paulo. Proceedings of IX International Symposium on Lightning Protection, Foz do Iguaçu, Brazil
Campos LZS, Saba MMF, Pinto O Jr et al. (2007) Waveshapes of continuing currents and properties of M-components in natural negative cloud-to-ground lightning from high-speed video observations. Atmos. Res. doi:10.1016/j.atmosres.2006.09.002
Campos LZS, Saba MMF, Pinto O Jr et al. (2008) Waveshapes of continuing currents and properties of M-components in natural positive cloud-to-ground lightning. Atmos. Res. doi:10.1016/j.atmosres.2008.02.020
Chen SM, Du Y, Fan LM et al. (2002) A lightning location system in China: its performance and applications. IEEE Trans Electromagn Compat 44:555–560
Chen SM, Du Y, Fan LM (2004) Lightning data observed with lightning location system in Guang-Dong province, China. IEEE Trans Power Delivery 19:1148–1153
Chisholm WA, Cummins KL (2006) On the use of LIS/OTD flash density in electric utility reliability analysis. Proceedings of the LIS International Workshop, MSFC, Huntsville, AL
Cummins KL, Bardo EA (2004) On the relationship between lightning detection network performance and measured lightning parameters. Proceedings of Ist International Conference on Lightning Physics and Effects, Belo Horizonte, Brazil
Cummins KL, Murphy MJ, Bardo EA et al. (1998a) A combined TOA/MDF technology upgrade of the U.S. national lightning detection network. J Geophys Res 103:9035–9044
Cummins KL, Krider EP, Malone MD (1998b) The U.S. national lightning detection network and applications of cloud-to-ground lightning data by electric power utilities. IEEE Trans Electr Compatibility 40:465–480
Eriksson AJ (1979) The lightning ground flash – an engineering study. Ph.D. Thesis, University of Natal, Pretoria, South Africa, 400 p
Evert R, Schulze G (2005) Impact of a new lightning detection and location system in South Africa. Proceedings of the IEEE PES Conference and Exposition in Africa, Durban, South Africa
Fernandes WA (2005) Lightning characteristics associated with thunderstorms formed in ambient with large concentration of smoke from fires. PhD. Thesis, INPE, 161p (in Portuguese)
Hidayat S, Ishii M (1998) Spatial and temporal distribution of lightning activity around Java. Geophys Res 103:14,001–14,009
Hidayat S, Ishii M (1999) Diurnal variation of lightning characteristics around Java island. J Geophys Res 104:24,449–24,454
Hidayat S, Ishii M, Hojo J et al. (1996) Observation of lightning in Indonesia by magnetic direction-finder network. Proceedings of the 10th International Conference on Atmospheric Electricity, Osaka, Japan
Kilinc M, Beringer J (2007) The Spatial and Temporal Distribution of Lightning Strikes and Their Relationship with Vegetation Type, Elevation, and Fire Scars in the Northern Territory. J Climate 20: 1161–1173
Murphy MJ., Holle RL (2005) Where is the real cloud-to-ground maximum in North America? weather and Forecasting 20:125–133
Murphy M, Pifer A, Cummins K et al. (2002) The 2002 upgrade of the U.S. NLDN. Proceedings of 17th. International Lightning Detection Conference, Tucson, AZ
Naccarato KP (2005) Analysis of the lightning characteristics in the Southeast region of Brazil, PhD. Thesis, INPE, 258p
Naccarato, KP, Pinto O Jr (2008) The evolution of the detection efficiency model for the Brazilian lightning detection network (BrasilDAT). Atmos. Res., submitted.
Naccarato, KP, Pinto O Jr, Pinto IRCA (2003) Evidence of thermal and aerosol effects on the cloud-to-ground lightning density and polarity over large urban areas of Southeastern Brazil. Geophys Res Lett 30:1674–1677
Naccarato, KP, Pinto O Jr, Pinto IRCA (2004) Application of a detection efficiency model to correct cloud-to-ground flash density maps in southeastern Brazil. Proceedings of the 18th International Lightning Detection Conference, Vaisala, Helsinki
Naccarato, KP, Pinto O Jr, Pinto IRCA (2006a) A detection efficiency model for the Brazilian Lightning Detection Network (RINDAT). Proceedings of the 19th International Lightning Detection Conference, Vaisala, Tucson, AZ
Naccarato KP, Pinto O Jr, Pinto IRCA (2006b) Different types of detection efficiency models to correct cloud-to-ground data obtained by Lightning Detection Networks, Proceedings of the International Conference on Grounding and Earthing & 2nd International Conference on Lightning Physics and Effects, SB-RAI, Maceió, CD-ROM
Ndlovu N, Evert CR (2006) Statistical analysis of data from an aged LPATS network. Proceedings of the 19th International Lightning Detection Conference (ILDC), Tucson, AZ
Orville RE, Zipser EJ, Brook M et al. (1997) Lightning in the region of TOGA Coare, Bull. Am Meteorol Soc 78: 1055–1067
Orville RE, Huffines GR, Burrows WR et al. (2002) The North American lightning network (NALDN) - first results: 1998–2000. Mon Wea Rev 130:2098–2109
Pinto IRCA, Pinto O Jr, Rocha RML et al. (1999a) Cloud-to-ground lightning in the southeastern Brazil in 1993, 2. Time variations and flash characteristics. J Geophys Res 104:31381–31388
Pinto IRCA, Pinto O Jr (2003) Cloud-to-ground lightning distribution in Brazil. J Atmos Solar-Terr Physics 65:733–737
Pinto IRCA, Pinto O Jr, Gomes MASS et al. (2004a) Urban effect on the characteristics of cloud-to-ground lightning over Belo Horizonte – Brazil. Ann Geophysicae 22:697–700
Pinto O Jr (2003) The Brazilian lightning detection network: a historical background and future perspectives. Proceedings of VII International Symposium on Lightning Protection, Curitiba, Brazil
Pinto O Jr (2005) The art of war against lightning. São Paulo, Oficina de Texto (in Portuguese)
Pinto O Jr, Gin RBB, Pinto IRCA et al. (1996) Cloud-to-ground lightning flash characteristics in the southeastern Brazil for the 1992–1993 summer season. J Geophys Res 101:29,627–629,635
Pinto O Jr, Pinto IRCA, Lacerda M et al. (1997) Are equatorial negative lightning flashes more intense than those at higher latitudes? J Atmos Solar-Terr. Phys 59:1881–1883
Pinto O Jr, Pinto IRCA, Gomes MASS et al. (1999b) Cloud-to-ground lightning in the southeastern Brazil in 1993, 1. Geographical distribution. J Geophys Res 104:31369–31380
Pinto O Jr, Pinto IRCA, Faria HH (2003a) A Comparative Analysis of Lightning Data from Lightning Networks and LIS Sensor in the North and Southeast of Brazil. Geophys ResLett 30: 1029–1032
Pinto O Jr, Pinto IRCA, Diniz JH et al. (2003b) A seven-year study about the negative cloud-to-ground lightning flash characteristics in the southeastern Brazil. J Atmos Terr Phys 65: 739–748
Pinto O Jr, Naccarato KP, Pinto IRCA et al. (2004b) Characteristics of cloud-to-ground lightning flashes in the Vale do Paraíba region (Southeast Brazil). Proceedings of the International Conference on Lightning Physics and Effects, Belo Horizonte, MG
Pinto O Jr, Pinto IRCA, Saba MMF et al. (2005) Return stroke peak current observations of negative natural and triggered lightning in Brazil. Atmos Res 76:493–502
Pinto O Jr, Naccarato KP, Saba MMF et al. (2006a) Recent upgrade to the Brazilian integrated lightning detection network, Proceedings of the 19th International Lightning Detection Conference (ILDC), Tucson, AZ
Pinto O Jr, Naccarato KP, Pinto IRCA et al. (2006b) Monthly distribution of cloud-to-ground lightning flashes as observed by lightning location systems. Geophys Res Lett. doi: 10.1029/2006GL026081
Pinto O Jr, Pinto IRCA; Naccarato KP (2007) Maximum cloud-to-ground lightning flash densities observed by lightning location systems in the tropical region: A review. Atmospheric Research 84:189–200
Pinto O Jr, Pinto IRCA (2008) About the sensitivity of cloud-to-ground lightning activity to surface air temperature changes at different time scales in the city of São Paulo, Brazil. J Geophys Res, submitted
Raizman S, Mendez Y, Vivas Jet al. (2004) Caracterization of the ceraunic level in Venezuela based on a lightning detection system. Proceedings of IV Congress of Electrical Engineer, Caracas, (in Spanish)
Rakov VA, and Uman MA (2003) Lightning: Physics and Effects. pp. 687, Cambridge Univ. Press, New York
Rompala JT, Blakeslee RJ, Bailey JC (2003) Detection efficiency contours for regions serviced by lightning detection networks of limited scope. Proceedings of the 12th International Conference on Atmospheric Electricity, ICAE, Versailles 1:101–104
Saba MMF, Pinto O Jr, Ballarotti MG et al. (2004) Monitoring the performance of the lightning detection network by means of a high-speed camera. Proceedings of the International Lightning Detection Conference (ILDC), Helsinki, Finland
Saba, MMF, Pinto O Jr, Solorzano NN et al. (2005) Lightning current observation of an altitude triggered flash”. Atmos Res 76: 402–411
Saba MMF, Ballarotti MG, Pinto O Jr (2006a) Negative cloud-to-ground lightning properties from high-speed video observations. J Geophys Res. doi:10.1029/2005JD006415.
Saba MMF, Pinto O Jr, Ballarotti MG (2006b) Relation between lightning return stroke peak current and following continuing current. Geophys Res Lett. doi:10.1029/2006GL027455.
Saba MMF, Cummins KL, Warner TA, et al. (2008) Positive Leader Characteristics from High-Speed Video Observations. Geophys Res Lett. doi:10.1029/2007GL033000
Schulz W (1997) Performance evaluation of lightning location systems. PhD Thesis, Technical University of Vienna, Faculty of Electrical Engineering, Austria, 136p
Schulz W, Diendorfer G (1996) Detection efficiency and site errors of lightning location systems. Proceedings of the 14th International Lightning Detection Conference, Tucson, AZ
Schulz W, Diendorfer G (1998) Effect of lightning location network setup on evaluated lightning characteristics. Proceedings of the 15th International Lightning Detection Conference (ILDC), Tucson, AZ
Schulz, W, Cummins K, Diendorfer G et al. (2005) Cloud-to-ground lightning in Austria: a 10-year study using data from a lightning location system. J Geophys Res. doi:10.1029/2006JD007831, 2007
Sharp AJ (1999) Operational LPATS network in Australia. Proceedings of the International Conference on Atmospheric Electricity (ICAE), pp. 234–237, Hunstville, AL
Solorzano NN (2003) Triggered lightning study in Brazil, PhD Thesis, INPE, 178 p (in Portuguese)
Tarazona J, Ferro C, Urdaneta AJ (2006) Cartographic representation of the Venezuelan keraunic activity. Proceedings of the CIGRE Meeting, Paris
Thomson EM, Gali MA, Uman MA, et al. (1984) Some features of stroke occurrence in Florida lightning flashes. J Geophys Res 89: 4910–4916
Torres H, Gallego L, Salgado M et al. (2001) Variation of ground stroke density with latitude. Proceedings of the International Symposium on Lightning Protection (SIPDA), Santos, Brazil.
Visacro S, Soares A Jr, Schoroeder MAO et al. (2004) Statistical analysis of lightning current parameters: measurements at morro do Cachimbo Station. J Geophys Res. doi:10.1029/2003JD003662
Younes C, Torres H, Pérez E et al. (2003) Lightning polarity variation in Colombia. Proceedings of the International Symposium on Lightning Protection (SIPDA), Curitiba, Brazil
Younes C, Torres H, Pérez E et al. (2004) Lightning parameters evaluation in the Colombian highest atmospheric activity zone. Proceedings of the International Conference on Lightning Protection (ICLP), Avignon, France
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Pinto, O., Pinto, I.R., Saba, M.M., Naccarato, K.P. (2009). Cloud-to-Ground Lightning Observations in Brazil. In: Betz, H.D., Schumann, U., Laroche, P. (eds) Lightning: Principles, Instruments and Applications. Springer, Dordrecht. https://doi.org/10.1007/978-1-4020-9079-0_9
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DOI: https://doi.org/10.1007/978-1-4020-9079-0_9
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