Abstract
This study investigates the atmospheric mechanisms triggering flash-flood event in Thrace Basin of Turkey on November 27, 2018. Underestimation of this extreme precipitation amounts by NWP global and regional models (i.e. ECMWF, ALARO, WRF) and other meteorological difficulties (i.e. complex topography, land-sea interactions) in weather forecasting disabled disaster risk reduction before the event occurred. Detailed synoptic, thermodynamic, in-situ, and remote sensing analyzing results showed that significant amount of moisture during the afternoon times of the day was transferred to the atmosphere (from ground to 300-hPa) as a consequence of the excessive heating of sea surface temperatures (SSTs) of the Aegean Sea (16.5 °C in Ayvacik-Gulpinar place, 0.9 °C above its long-term normals). Strong southwesterly wind speeds associated with slow meridional movement of mid-latitude cyclone from its origin to the Eastern Mediterranean (EM) enabled transferring of relatively warm moist air to the land areas of Thrace Region (> 300 km fetch distance). Strong updraft and instability conditions under developed a supercell resulted with lightning (totally 63 cloud-to-ground and 59 intra cloud) and heavy rainfall especially Suloglu, Kofcaz, and Edirne settlements with the 12-hour total amounts 160.0, 123.0, and 97.4 mm (rainfall return period ~ 100 years), respectively. Flash-flood event caused numerous injuries and the death of a person and damaged, automobiles, houses, crops, and infrastructure of the Edirne and its neighboring settlements. From Showalter, K, Total of Totals, SWEAT, and CAPE instability indices; SWEAT is most appropriate to represent high possibility of occurrence of severe thunderstorms over the Edirne province owing to low-level moisture, warm air advection and low and mid-level wind speed terms in its equation.
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References
Akkoyunlu, B. O., Baltaci, H., & Tayanc, M. (2019). Atmospheric conditions of extreme precipitation events in western Turkey for the period 2006–2015. Natural Hazards and Earth System Sciences,19, 107–119.
Baltacı, H., Göktürk, O. M., Kındap, T., Ünal, A., & Karaca, M. (2015). Atmospheric circulation types in Marmara Region (NW Turkey) and their influence on precipitation. International Journal of Climatology,35, 1810–1820.
Baltacı, H., Kındap, T., Ünal, A., & Karaca, M. (2017). The influence of atmospheric circulation types on regional patterns of precipitation in Marmara (NW Turkey). Theoretical and Applied Climatology,127, 563–572.
Baltaci, H. (2017). Meteorological analysis of flash floods in Artvin (NE Turkey) on 24 August 2015. Natural Hazards and Earth System Sciences,17, 1221–1230.
Baltaci, H., Akkoyunlu, B. O., & Tayanc, M. (2018). An extreme hailstorm on 27 July 2017 in Istanbul, Turkey: synoptic scale circulation and thermodynamic evaluation. Pure and Applied Geophysics,175, 3727–3740.
Buzzi, A., Tartaglione, N., & Malguzzi, P. (1998). Numerical simulations of the 1994 piedmont flood: role of orography and moist processes. Monthly Weather Review,126, 2369–2383.
Cassola, F., Ferrari, F., Mazzino, A., & Miglietta, M. M. (2016). The role of the sea on the flash flood events over Liguria (northwestern Italy). Geophysical Research Letters,43, 3534–3542.
Ciric, D., Nieto, R., Ramos, A. M., Drumond, A., & Gimeno, L. (2018). Contribution of moisture from Mediterranean Sea to extreme precipitation events over Danube River Basin. Water,10, 1182.
Demirtas, M. (2016). The October 2011 devastating flash flood event of Antalya: triggering mechanisms and quantitative precipitation forecasting. Quaterly Journal of the Royal Meteorological Society,142, 2336–2346.
Doswell, C. A., Ramis, C., Romero, R., & Alonso, S. (1998). A diagnostic study of three heavy precipitation episodes in the western Mediterranean region. Weather and Forecasting,13, 102–104.
Ferraris, L., Reale, O., & Turato, B. (2001). Synoptic and hydrological analysis of a flood event. Physics and Chemistry of the Earth B,9, 655–661.
Homar, V., Ramis, C., Romero, R., Alonso, S., Garcia-Moya, J. A., & Alarcon, M. (1999). A case of convection development over the western Mediterranean Sea: a study through numerical simulations. Meteorology and Atmospheric Physics,71, 169–188.
Kalnay, E., Kanamitsu, M., Kistler, R., Collins, W., Deaven, D., Gandin, L., et al. (1996). The NCEP/NCAR 40 year reanalysis project. Bulletin of the American Meteorological Society,77, 437–471.
Kömüşçü, A. Ü., & Çelik, S. (2013). Analysis of the Marmara flood in Turkey, 7–10 September 2009: an assessment from hydrometeorological perspective. Natural Hazards,66, 781–808.
Kömüşçü, A. Ü., Erkan, A., & Çelik, S. (1998). Analysis of meteorological and terrain features leading to the İzmir flash flood, 3–4 November 1995. Natural Hazards,18, 1–25.
Krichak, S. O., & Alpert, P. (1998). Role of large scale moist dynamics in November 1–5, 1994, hazardous Mediterranean weather. Journal of Geophysical Research,103, 19453–19468.
Krichak, S. O., Alpert, P., & Dayan, M. (2004). The role of atmospheric processess associated with Hurricane Olga in the December 2001 floods in Israel. Journal of Hydrometeorology,5, 1259–1270.
Martin, A., Romero, R., Homar, V., De Luque, A., Alonso, S., Rigo, T., et al. (2007). Sensitivities of a flash flood event over catalonia: a numerical analysis. Monthly Weather Review,135, 651–669.
Miglietta, M., & Regano, R. (2008). An observational and numerical study of a flash-flood event over south-eastern Italy. Natural Hazards and Earth System Sciences,8, 1417–1430.
Pastor, F., Gomez, I., & Estrela, M. J. (2010). Numerical study of the October 2007 flash flood in the Valencia region (Eastern Spain): the role of orography. Natural Hazards and Earth System Sciences,10, 1331–1345.
Pastor, F., Valiente, J. A., & Estrela, M. J. (2015). Sea surface temperature and torrential rains in the Valencia region: modeling the role of recharge areas. Natural Hazards and Earth system Sciences,15, 1677–1693.
Rossa, A. M., Guerra, F. L. D., Borga, M., Zanon, F., Settin, T., & Leuenberger, D. (2010). Radar-driven high-resolution hydro-meteorological forecasts of the 26 September 2007 Venice flash flood. Journal of Hydrology,394, 230–244.
Tercan, B. (2018). TürkiyeDe afet politikaları ve kentsel dönüşüm (in Turkish). Abant Journal of Cultural Studies,3(5), 102–120.
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Baltaci, H. The Role of Atmospheric Processes Associated with a Flash-Flood Event Over Northwestern Turkey. Pure Appl. Geophys. 177, 3513–3526 (2020). https://doi.org/10.1007/s00024-019-02413-y
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DOI: https://doi.org/10.1007/s00024-019-02413-y