Wildfires in the eastern Mediterranean as a result of lightning activity – a change in the conventional knowledge
Shlomit Paz A D , Moshe Inbar A , Haim Kutiel A , Dan Malkinson A B , Naama Tessler C and Lea Wittenberg AA Department of Geography and Environmental Studies, University of Haifa, Abba Hushi Road 199 Haifa, Israel 3498838.
B The Golan Research Institute, University of Haifa, PO Box 97, Katzrin, Israel 1290000.
C Department of Biology and Environment, University of Haifa–Oranim, Tivon, Israel 3600600.
D Corresponding author. Email: shlomit@geo.haifa.ac.il
International Journal of Wildland Fire 25(5) 592-596 https://doi.org/10.1071/WF15147
Submitted: 7 June 2015 Accepted: 10 January 2016 Published: 29 March 2016
Abstract
No records exist in the scientific literature about lightning fires in the eastern Mediterranean (EM). Although thunderstorms are frequent in winter, if spontaneous fire is ignited, it will immediately be extinguished by rain. No thunderstorms occur in summer, and therefore no favourable weather conditions for natural ignitions exist. In October 2014, the synoptic conditions over the EM comprised a Red Sea Trough (RST) with an easterly axis (a less frequent version of this system). A convective storm, accompanied by thunderstorms with intense local rains developed rapidly. Simultaneously, six wildfires were reported from different locations in northern Israel (in the EM). Lightning activity documented by the Israel Electric Co. was at the same time and locations as the reported wildfires. To the best of our knowledge, this is the first case recorded in recent history of wildfires in the EM as a result of lightning. Moreover, in the literature, the RST is associated with fires only when its axis is in a western position, thus driving very hot and dry air masses. A different way of thinking is needed on the potential of lightning in autumn as a possible cause of fires under different situations of the RST.
References
Alexandrian D, Esnault F, Calabri G (1998) Forest fires in the Mediterranean area. (Food and Agriculture Organization of the United Nations, Rome) Available at http://www.fao.org/docrep/x1880e/x1880e07.htm [Verified 10 July 2015]Ben Ami Y, Altaratz O, Yair Y, Koren I (2015) Lightning characteristics over the eastern coast of the Mediterranean during different synoptic systems. Natural Hazards and Earth System Sciences 15, 2449–2459.
| Lightning characteristics over the eastern coast of the Mediterranean during different synoptic systems.Crossref | GoogleScholarGoogle Scholar |
Brotons L, Aquilué N, de Cáceres M, Fortin M-J, Fall A (2013) How fire history, fire suppression practices and climate change affect wildfire regimes in Mediterranean landscapes. PLoS One 8, e62392
| How fire history, fire suppression practices and climate change affect wildfire regimes in Mediterranean landscapes.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3sXnsFWqsbw%3D&md5=43e2fa4fd73c859cc4323d6c3b7f9280CAS | 23658726PubMed |
Carmel Y, Paz S, Jahashan F, Shoshany M (2009) Assessing fire risk using Monte Carlo simulations of fire spread. Forest Ecology and Management 257, 370–377.
| Assessing fire risk using Monte Carlo simulations of fire spread.Crossref | GoogleScholarGoogle Scholar |
Dayan U, Sharon D (1980) Meteorological parameters for discrimination between widespread and spotty storms in the Negev. Israel Journal of Earth Sciences 29, 253–256.
Ganteaume A, Camia A, Jappiot M, San-Miguel-Ayanz J, Long-Founel M, Corinne L (2013) A review of the main driving factors of forest fire ignition over Europe. Environmental Management 51, 651–662.
| A review of the main driving factors of forest fire ignition over Europe.Crossref | GoogleScholarGoogle Scholar | 23086400PubMed |
Goldreich Y (2003) ‘The climate of Israel. Observation, research and applications.’ (Kluwer Academic/Plenum Publishers: New York)
Harats N, Ziv B, Yair Y, Kotroni V, Dayan U (2010) Lightning and rain dynamic indices as predictors for flash floods events in the Mediterranean. Advances in Geosciences 23, 57–64.
| Lightning and rain dynamic indices as predictors for flash floods events in the Mediterranean.Crossref | GoogleScholarGoogle Scholar |
Israel Meteorological Service (IMS) (2002) ‘Meteorological reports of 2002.’ (Beit Dagan, Israel)
IMS (2004) ‘Meteorological reports of 2004.’ (Beit Dagan, Israel)
IMS (2013) ‘Meteorological reports of 2013.’ (Beit Dagan, Israel)
IMS (2014) ‘Meteorological reports of 2014.’ (Beit Dagan, Israel)
IMS (2015) ‘A review of extreme weather events in Israel.’ (Beit Dagan, Israel)
Katz E, Kalman G (2009) The impact of environmental and geographical conditions on lightning parameters derived from lightning location system in Israel. In ‘Proceeding of the 10th International Symposium on Lightning Protection’, Curitiba, Brazil, 9–13 November 2009, pp. 249–254.
Katz E (2005) A detection and recording lightning system. Faza Acheret 14–16. . [In Hebrew]
Kutiel H (2012) Weather conditions and forest fire propagation – the case of the Carmel fire, December 2010. Israel Journal of Ecology & Evolution 58, 113–122.
Kutiel H, Kutiel P (1991) The distribution of autumnal easterly wind spells favoring rapid spread of forest wildfires on Mount Carmel, Israel. GeoJournal 23, 147–152.
| The distribution of autumnal easterly wind spells favoring rapid spread of forest wildfires on Mount Carmel, Israel.Crossref | GoogleScholarGoogle Scholar |
Levin N, Saaroni H (1999) Fire weather in Israel – synoptic climatological analysis. GeoJournal 47, 523–538.
| Fire weather in Israel – synoptic climatological analysis.Crossref | GoogleScholarGoogle Scholar |
Martínez J, Vega-Garcia C, Chuvieco E (2009) Human-caused wildfire risk rating for prevention planning in Spain. Journal of Environmental Management 90, 1241–1252.
| Human-caused wildfire risk rating for prevention planning in Spain.Crossref | GoogleScholarGoogle Scholar | 18723267PubMed |
Moreira F, Viedma O, Arianoutsou M, Curt T, Koutsias N, Rigolot E, Barbati A, Corona P, Vaz P, Xanthopoulos G, Mouillot F, Bilgili E (2011) Landscape–wildfire interactions in southern Europe: implications for landscape management. Journal of Environmental Management 92, 2389–2402.
| Landscape–wildfire interactions in southern Europe: implications for landscape management.Crossref | GoogleScholarGoogle Scholar | 21741757PubMed |
Pausas JG (2004) Changes in fire and climate in the eastern Iberian Peninsula (Mediterranean basin). Climatic Change 63, 337–350.
| Changes in fire and climate in the eastern Iberian Peninsula (Mediterranean basin).Crossref | GoogleScholarGoogle Scholar |
Pausas JG, Fernández-Muñoz S (2012) Fire regime changes in the western Mediterranean Basin: from fuel-limited to drought-driven fire regime. Climatic Change 110, 215–226.
| Fire regime changes in the western Mediterranean Basin: from fuel-limited to drought-driven fire regime.Crossref | GoogleScholarGoogle Scholar |
Pausas JG, Keeley JE (2014) Abrupt climate-independent fire regime changes. Ecosystems 17, 1109–1120.
| Abrupt climate-independent fire regime changes.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC2cXotVyqs70%3D&md5=34997815cffe14b0d922504e64811ab8CAS |
Pausas JG, Llovet J, Rodrigo A, Vallejo R (2008) Are wildfires a disaster in the Mediterranean basin? – A review. International Journal of Wildland Fire 17, 713–723.
| Are wildfires a disaster in the Mediterranean basin? – A review.Crossref | GoogleScholarGoogle Scholar |
Shalev S, Saaroni H, Izsak T, Yair Y, Ziv B (2011) The spatiotemporal distribution of lightning over Israel and the neighboring area and its relation to regional synoptic systems. Natural Hazards and Earth System Sciences 11, 2125–2135.
| The spatiotemporal distribution of lightning over Israel and the neighboring area and its relation to regional synoptic systems.Crossref | GoogleScholarGoogle Scholar |
Tessler N (2012) Documentation and analysis of wildfire regimes on Mount Carmel and the Jerusalem hills. Horizons in Geography 79–80, 184–193. [In Hebrew]
Tsvieli Y, Zangvil A (2005) Synoptic climatological analysis of wet and dry Red Sea troughs over Israel. International Journal of Climatology 25, 1997–2015.
| Synoptic climatological analysis of wet and dry Red Sea troughs over Israel.Crossref | GoogleScholarGoogle Scholar |
Vannière B, Colombaroli D, Chapron E, Leroux A, Tinner W, Magny M (2008) Climate versus human-driven fire regimes in Mediterranean landscapes: the Holocene record of Lago dell’Accesa (Tuscany, Italy). Quaternary Science Reviews 27, 1181–1196.
| Climate versus human-driven fire regimes in Mediterranean landscapes: the Holocene record of Lago dell’Accesa (Tuscany, Italy).Crossref | GoogleScholarGoogle Scholar |
Vazquez A, Moreno JM (1995) Patterns of fire occurrence across a climatic gradient and its relationship to meteorological variables in Spain. In ‘Global change and Mediterranean-type ecosystems’. (Eds JM Moreno, WC Oechel) pp. 408–434 (Springer-Verlag: New York)
Whelan RJ (1995) ‘The ecology of fire.’ (Cambridge University Press: Cambridge, UK)
Wittenberg L, Malkinson D, Beeri O, Halutzy A, Tesler N (2007) Spatial and temporal patterns of vegetation recovery following sequences of forest fires in a Mediterranean landscape, Mt Carmel, Israel. Catena 71, 76–83.
| Spatial and temporal patterns of vegetation recovery following sequences of forest fires in a Mediterranean landscape, Mt Carmel, Israel.Crossref | GoogleScholarGoogle Scholar |
Yair Y, Shalev S, Erlich Z, Agrachov A, Katz E, Saaroni H, Price C, Ziv B (2014) Lightning flash multiplicity in eastern Mediterranean thunderstorms. Natural Hazards and Earth System Sciences 14, 165–173.
| Lightning flash multiplicity in eastern Mediterranean thunderstorms.Crossref | GoogleScholarGoogle Scholar |
Ziv B, Yair Y (2015) ‘Introduction to meteorology’, 2nd edn, (The Hebrew University Press: Ra’anana, Israel) [In Hebrew]