Home Archiveaaa News Contact
PDF download
Cite article
Share options
Informations, rights and permissions
Issue image
Vol 16, Issue 1, 2024
Pages: 767 - 775
Research paper
Other Editor: Ognjen Mijatović
See full issue

This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. 

Metrics and citations
Abstract views: 123
PDF Downloads: 77
Google scholar: See link
Article content
  1. Abstract
  2. Disclaimer
Published: 12.06.2024. Research paper Other Editor: Ognjen Mijatović

FLASH FLOODS VULNERABILITY ASSESSMENT OF THE MUNICIPALITY OF ČELINAC, BOSNIA AND HERZEGOVINA

By
Marko Ivanišević Orcid logo ,
Marko Ivanišević
Contact Marko Ivanišević

Civil engineering institute "IG" Banja Luka, Banja Luka, Bosnia and Herzegovina

Dragana Kuzmanović ,
Dragana Kuzmanović

Civil engineering institute "IG" Banja Luka, Banja Luka, Bosnia and Herzegovina

Dajana Đuka ,
Dajana Đuka

Civil engineering institute "IG" Banja Luka, Banja Luka, Bosnia and Herzegovina

Dušica Lemez
Dušica Lemez

Civil engineering institute "IG" Banja Luka, Banja Luka, Bosnia and Herzegovina

Abstract

This paper analyses the susceptibility of territory of municipality Čelinac to flash floods using the Flash Flood Potential Index (FFPI). All operations related to calculating the FFPI were conducted in a GIS environment. The research results showed that 38.42% of the territory belongs to the category of low susceptibility to flash floods. The category of moderate susceptibility includes 36.86% of the territory, while 18.77% of the territory is classified as highly susceptible to flash floods. The very high susceptibility to flash floods applies to the area occupying 5.95% of the total territory of the Čelinac municipality. This research can be useful to all subjects involved in natural disaster protection, local government, insurance companies, and the general population.

References

1.
Alcantra A. Geomorphology, natural hazards, vulnerability and prevention of natural disasters in developing countries. Geomorphology. 2002;47(2–4):107-124,.
2.
Schmidt T, Greiving S, Kallio H, Fleischhauer M, Jarva J. Economic risk maps of floods and earthquakes for European regions. Quaternary International. 2006;150(1):103-112,.
3.
Toya H, Skidmore M. Economic development and the impacts of natural disasters. Economics Letters. 2007;94(1):20-25,.
4.
Barredo J. Major flood disasters in Europe: 1950–2005. Natural Hazards. 2002;42(1):125-148,.
5.
Gaume E. A compilation of data on European flash floods. Journal of Hydrology. 2009;367(1–2):70-78,.
6.
Marchi L, Borga M, Gaume E. Characterisation of selected extreme flash floods in Europe and implications for flood risk management. Journal of Hydrology. 2010;394(1–2):118-133,.
7.
Romanescu GC, Mihu-Pintilie A, Stoleriu C. Historic flood events in NE Romania (post-1990. Journal of Maps. 2017;13(2):787-798,.
8.
Tošić R, Lovrić N, Dragićević S, Manojlović S. Assessment of torrential flood susceptibility using GIS matrix method: case study - Vrbas river basin (B&H. Carpathian Journal of Earth and Environmental Sciences. 2018;13(2):369-382,.
9.
Petrović A. Bujične poplave u Srbiji. 2021.
10.
Belgrade: Republički fond voda i Institut za vodoprivredu erozionih područja Šumarskog fakulteta. 1975.
11.
Hall A. Flash flood forecasting. 1981.
12.
Tošić R. Metodologija i rezultati mapiranja rizika od bujičnih poplava na primjeru potoka Jelovac, Grad Banja Luka. Vodoprivreda. 2022;54:97-107,.
13.
Zelenakova M, Ganova L, Purcz P, Satrapa L. Methodology of flood risk assessment from flash floods based on hazard and vulnerability of the river basin. Natural hazards. 2015;79(3):2055-2071,.
14.
Georgakakos K. Analytical results for operational flash flood guidance. Journal of Hydrology. 2006;317(1–2):81-103,.
15.
Drobot S, Parker D. Advances and challenges in flash flood warnings. Environmental hazards. 2007;7(3):173-178,.
16.
Collier C. Flash flood forecasting: what are the limits of predictability? Quarterly Journal of the Royal Meteorological Society. 2007;133:3-23,.
17.
Norbiato D, Borga M, Esposti S, Gaume E, Anquetin S. Flash flood warning based on rainfall thresholds and soil moisture conditions: An assessment for gauged and ungauged basins. Journal of Hydrology. 2008;362(3–4):274-290,.
18.
Smith G. Flash Flood Potential: Determining the Hydrologic Response of FFMP Basins to Heavy Rain by Analyzing Their Physiographic Characteristics. 2003.
19.
Fernandez-Lavado C, Furdada C, Marques M. Geomorphological method in the elaboration of hazard maps for flash-floods in the municipality of Jucuaran (EI Salvador. Natural Hazards Earth System Science. 2007;7(4):455-465,.
20.
Teodor S, Matreata S. A way of determining how small river basins of somes river are susceptible to flash-floods. Carpathian Journal of Earth and Environmental Sciences. 2011;6(1):89-98,.
21.
Bryndal T. A method for identification of small carpathian catchments more prone to flash flood generation based on the example of south-eastern part of the polish carpathians. Carpathian Journal of Earth and Environmental Sciences. 2014;9(3):109-122,.
22.
Kim E, Choi H. A method of flood severity assessment for predicting local flood hazards in small ungauged catchments. Natural Hazards. 2015;78(3):2017-2033,.
23.
Papagiannaki K, Lagouvardos K, Kotroni V, Bezes A. Flash flood occurrence and relation to the rainfall hazard in a highly urbanized area. Natural Hazards and Earth System Sciences. 2017;15(8):1859-1871,.
24.
Tincu R, Lazar G, Lazar I. Modified Flash Flood Potential Index in order to estimate areas with predisposition to water accumulation. De Gruyter. 2018;10:593-606,.
25.
Marković M, Lukić S, Baumgerte A. Use of flash flood potential index (FFPI) method for assessing the risk of roads to the occurence of torrential floods - part of the Danube basin and Pek river basin. International Journal for Traffic & Transport Engineering. 2021;11(4):543-553,.
26.
R.Z.S. Popis stanovništva, domaćinstava i stanova u Republici Srpskoj 2013. godine. Republički zavod za statistiku, Banja Luka. 2017;
27.
Zogg J. The Flash Flood Potential Index at WFO Des Moines. 2013.
28.
Thi D, Van TD, Van HL. Detection od flash-flood potential areas using watershed characteristics: Application to Cau River watershed in Vietnam. Journal of Earth System Science. 2020;129(1).
29.
Popov T, Gnjato S, Trbić G. Analysis of Extreme Precipitation over the Peripannonian Region of Bosnia Hercegovina. IDOJARAS. 2018;122(4):433-452,.
30.
Lovrić N, Tošić R, Dragićević S, Novković I. Assessment of torrential flood susceptibility: Case study - Ukrina river basin (B&H. Bulletin of the Serbian Geographical Society. 99(2):1-16,.

The statements, opinions and data contained in the journal are solely those of the individual authors and contributors and not of the publisher and the editor(s). We stay neutral with regard to jurisdictional claims in published maps and institutional affiliations.