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Mass movements represent important processes that shape relief in Alpine areas. In this article, we present the spatio-temporal dynamics of the Ciprnik landslide (Julian Alps, NW Slovenia) and interpret its triggering and evolution. In the study area, mass movement activity is characterised by two phases: normal deposition on the fluvial fans that dominated up to 2000, and a more active phase related to the triggering of the Ciprnik complex landslide and formation of an additional debris-flow fan. The Ciprnik landslide started as a translational movement over the discontinuity plane that was mobilised into a debris-flow. The triggering and slope failure resulted from a combination of tectonics (i.e. dip-slope position of the strata, and strong fracturing), lithology (alternation of thin beds of carbonates and fine-grained clastics), and accumulation of precipitation. The debris-flow fan remains active and interfingers with adjacent active fluvial fans
Wydawca
Czasopismo
Rocznik
Tom
Strony
35--54
Opis fizyczny
Bibliogr. 39 poz., rys., wykr.
Twórcy
autor
- University of Ljubljana, Faculty of Natural Sciences and Engineering, Department of Geology; 11 Privoz str., 1000 Ljubljana, Slovenia
autor
- University of Silesia, Faculty of Earth Sciences; 60 Będzińska str., 41-200 Sosnowiec, Poland
autor
- University of Silesia, Faculty of Earth Sciences; 60 Będzińska str., 41-200 Sosnowiec, Poland
autor
- University of Silesia, Faculty of Earth Sciences; 60 Będzińska str., 41-200 Sosnowiec, Poland
Bibliografia
- Blott S.J., Pye K., 2012. Particle size scales and classification of sediment types based on particle size distributions: Review and recommended procedures. Sedimentology 59/7, 2071–2096.
- Breien H., D e Blasio F.V., Elverhoi A., Hoeg K., 2008. Erosion and morphology of a debris flow caused by a glacial lake outburst flood, Western Norway. Landslides 5, 271–280.
- Caine N.,1980. The rainfal intensity: Duration control of shallow Landslides and Debris Flows. Geografiska Annaler, Series A, 62 (1/2), 23–27.
- Cegnar T., 2001. Climate in Slovenia in 1999 and 2000 Comapred to the 1961–1990 Reference period. Ujma 14–15, 14–25, (in Slovenian).
- Cecić I., Živičić M., Torkar M., Jesenko T., 2001. Earthquakes in Slovenia in 2000. [in:] Earth-quakes in Slovenia 2000. R. Vidrih (ed.), Ministry of the Environment and Spatial Planning, Ljubljana, 8–29.
- Celarc B., 2004. Problematika »cordevolskih« apnencev in dolomitov v slovenskih Južnih Alpah. Geologija 47/2, 139–149, (in Slovenian).
- Celarc B., Gale L., Kolar-Jurkovšek T., 2013. Stratigrafski razvoj zgornjetriasnih plasti doline Tamar (Severne Julijske Alpe) in primerjava s sosedjnimi globljemorskimi razvoji. Geološki zbornik 22, 21–25, (in Slovenian).
- De Blasio F. V., 2005. Introduction to the Physics of Landslides. Springer, Dordrecht, 408 pp.
- Dikau R., Brunsden D., Schrott L., Ibsen M.L., 1996. Landslide Recognition: Identification, Movement and Causes. Wiley, Chichester, 274 pp.
- Dolinar M. 2001. Abundant Rainfall in 1999 and 2000. Ujma 14–15, 32–39.
- Fidej G., Mikoš M., Rugani T., Jež J., Kumelj Š., Diaci J., 2015. Assessment of the protective function of forests against debris flows in a gorge of the Slovenian Alps. Forest 8, 73–8.
- Guzzetti F., Peruccacci S., Rossi M., Stark C.P., 2007. Rainfall thresholds for the initiation of landslides in central and southern Europe. Meteorol. Atmos. Phys. 98, 239–267.
- Gale L., Celarc B., Caggiati M., Kolar-Jurkovšek T., Jurkovšek B., Gianolla P.,2015. Paleogeographic significance of Upper Triassic basinal succession of the Tamar Valley, northern Julian Alps (Slovenia). Geologica Carpathica 66(4), 269–283.
- Iverson R.M., Reid M.E., LaHusen R.G., 1997.Debris-flow mobilization from landslides. Ann. Rev. Earth Planet. Sci. 25, 85–138.
- Jurkovšek B., 1987. Basic Geological Map of SFRJ. 1:100.000. Sheet Beljak in Ponteba. Zvezni geološki zavod, Beograd.
- Jurkovšek B., 2001. Geologom in ljudskim pripovedkam je treba prisluhniti. Delo 10.1. 2001., (in Slovenian).
- Kajfež-Bogataj L., 1996. Nalivi v Sloveniji [Storms in Slovenia]. Sodobno kmetijstvo 29, 422–424, (in Slovenian).
- Komac B., 2001. Geografski vidiki nesrece. Ujma 14–15, 60–66, (in Slovenian).
- Komac M., Ribičič M., 2006. Landslide susceptibility map of Slovenia at scale 1:250 000. Geologija 49(2), 295–309.
- Komac M., Kumelj Š., Ribičič M., 2009. Debris-flow susceptibility model of Slovenia at scale 1 : 250,000. Geologija 52(/1), 87–104.
- Komac B., Zorn M., 2005. Pobocni procese in clovek. Geografija Slovenije 15, 217 pp., (in Slovenian).
- Komac B., Zorn M., 2007. Pobocni procesi in clovek. Geografski inštitut Antona Melika ZRC SAZU, Ljubljana, 217 pp., (in Slovenian).
- Majes B., 2001, Analysis of Landslide and its Rehabilitation. Ujma 14–15, 80–91.
- Mikoš M., Brilly M., Fazarinc R., Ribičič M., 2006a. Strug landslide in W Slovenia: A complex multiprocess phenomenon. Engineering Geology 83, 22–35.
- Mikoš M., Fazarinc R., Majes B., Rajar R., Zagar D., Krzyk M., Hojnik T., Cetina M., 2006b. Numerical simulation of debris flows triggered from the Strug rock fall source area, W Slovenia. Natural Hazards and Earth System Sciences 6, 261–279.
- Nichols G., 2009. Sedimentology and stratigraphy. Wiley-Blackwell, Oxford, 419 pp.
- Novak A., Šmuc A., 2015. Geomorfološka karta in analiza sedimentnih teles v dolinah Planice in Tamarja. Geološki zbornik 23, 132–134.
- Ogorelec, B., 1984. Karnijske plasti v Tamarju in pri Logu pod Mangartom. Geologija, let. 27, 107–158.
- Petkovšek B., 2001. Geological Characteristics of the Stože Landslide. Ujma 14–15, 98–101.
- Placer L., 2008. Principles of the tectonic subdivision of Slovenia. Geologija 51(2), 205–217.
- Ramovš A., 1981. Nova spoznanja o razvoju julijskih in tuvalijskih plasti v severnih Julijskih Alpah. Rudarsko Metalurški Zbornik 28(2–3), 177–181.
- Reading H.G., 1996. Sedimentary Environments: Provesses, Facies and Stratigraphy. Blackwell, Oxford, 688 pp.
- Ribičič M., 2001. Debris Flow at Log pod Mangartom. Ujma 14–15, 102–108.
- Ribičič M., Vidrih R., 1998. Earthquake-triggered landslides and rockfalls. Ujma 12, 95–105.
- Ribičič M., Kočevar M., 2003. Mechanisms of sliding above the village of Kosec and with them linking remediation measures. Geologija 46(1), 159–166.
- Triglav Cekada M., Barborič B., Zorn M., Ferk M., 2016. Lasersko skeniranje Slovenije in akumulacijske reliefne oblike v slovenskem visokogorju. Zbornik del: Raziskave s področja geodezije in geofizike 2015, 51–56, (in Slovenian).
- Zorn M., Komac B., 2008. Zemeljski plazovi v Sloveniji, ZRC SAZU, Ljubljana. 159 pp.
- Zorn M., Natek K., Komac B., 2006. Mass movements and flash-floods in Slovene Alps and Surrpunding mountains. Studia Geomorphologica Carpatho-Balcanica 40, 127–145.
- Wieczorek G.F., Glade T., 2005. Climatic factors influencing occurrence of debris flows. [in:] Debris-flow Hazards and Related Phenomena. M. Jakob, O., Hungr (eds.), Springer, Berlin, 325–362.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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