Debris flows and debris floods occurrence in the Ribnishka River watershed (southern slopes of Ograzhden Mountain)

Author:

Dotseva Zornitsa,Vangelov Dian,Gerdjikov Ianko

Abstract

The Ribnishka River watershed, located on the southern slopes of Ograzhden Mountain is known for the repeated torrential events in the last few decades. In this paper, we represent a preliminary assessment of the debris floods and debris flows hazard in the Ribnishka River watershed. For this purpose, the topographic conditions in the watershed are considered, the source, transport, and deposition zones are characterized, as well as the observed sediment deposits in the river valley. The obtained results could be used in the development of risk management plans, but also provide new information on the development of debris floods and debris flows in this part of the country.

Publisher

Bulgarian Geological Society

Reference8 articles.

1. Horton, R. E. 1932. Drainage-basin characteristics. – Trans. Am. Geophys. Union., 13, 350–361.

2. Kean, J. W., S. W. McCoy, G. E. Tucker, D. M. Staley, J. A. Coe. 2013. Runoff-generated debris flows: Observations and modeling of surge initiation, magnitude, and frequency. – J. Geophys. Res. Earth Surface, 118, 2190–2207; https://doi.org/10.1002/jgrf. 20148.

3. Klimov, I., A. Marinova, R. Marinova, I. Petrov, P. Milovanov, E. Ilieva. 2004. Geological Map of Bulgaria, Scale 1:50 000. Map Sheets К-34-94-Г (Makrievo), К-34-95-В (Petrich), К-34-106-Б, К-34-107-А (Belasitsa). Sofia, Ministry of Environment and Water, Bulgarian Geological Survey.

4. Melton, M. 1965. The geomorphic and palaeoclimatic significance of аlluvial deposits in Southern Arizona. – J. Geol., 73, 1–38.

5. ASTER Global Digital Elevation Model V003. 2018. Distributed by NASA EOSDIS Land Processes DAAC; https://doi.org/10.5067/ASTER/ASTGTM.003.

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