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Landslide exposure assessment under environmental change in the Romanian Subcarpathians

Autorzy
Jurchescu Marta , Kucsicsa Gheorghe , Micu Mihai , Sima Mihaela , Bălteanu Dan
Wybrane pełne teksty z tego czasopisma
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Języki publikacji
EN
Abstrakty
EN
This study focuses on one of the most complex petrographic and structural relief units in Romania, affected by significant earthquakes and uplift neotectonic movements, i.e. the Subcarpathian region. The Subcarpathians represent a highly fragmented hilly area subject to various mass movements and erosion processes, frequently affecting settlements, transport infrastructure and environmental values. The paper aims to present a landslide exposure assessment conducted for this region, following three main stages which are addressed in the context of present environmental conditions and their possible future changes: landslide susceptibility, landslide hazard and the exposure of elements at risk. It also intends to address and discuss the associated specific contexts, problems and challenges. By integrating selected landslide hazard scenarios, computed under different precipitation and seismic conditions, and key data on elements at risk (i.e. built-up areas, arable lands, permanent crops and major protected areas) into GIS spatial and statistical analyses, potential current and future landslide risk areas are outlined. Results are quantified at the Local Administrative Unit (LAU; towns and communes) level. The output maps reveal significant regional differences in landslide susceptibility and hazard according to the specific predisposing and triggering factors considered, as well as spatial variations in the landslide exposure in relation to specific land-uses and protected areas in the region. The present study contributes to increasing knowledge on landslide susceptibility, hazard, and exposure in the area and provides a ground for further related investigations. In addition, because of its predictive character, this study may constitute a useful tool for policy makers supporting decisions with regard to where future priorities should be focused.
Słowa kluczowe
EN
Wydawca
Polska Akademia Umiejętności
Czasopismo
Studia Geomorphologica Carpatho-Balcanica
Rocznik
2019/2020
Tom
Vol. 53/54
Strony
59--84
Opis fizyczny
Bibliogr. 74 poz., rys.
Twórcy
autor
Jurchescu Marta
marta_jurchescu@yahoo.com
  • Romanian Academy, Institute of Geography, Romania
autor
Kucsicsa Gheorghe
  • Romanian Academy, Institute of Geography, Romania
autor
Micu Mihai
  • Romanian Academy, Institute of Geography, Romania
autor
Sima Mihaela
  • Romanian Academy, Institute of Geography, Romania
autor
Bălteanu Dan
  • Romanian Academy, Institute of Geography, Romania
Bibliografia
  • Armaș I., 2012. Weights of evidence method for landslide susceptibility mapping. Prahova Subcarpathians, Romania. Natural Hazards 60, 937–950, https://doi.org/10.1007/s11069-011-9879-4.
  • Badea L., 1967. Subcarpații dintre Cerna Oltețului și Gilort. Studiu de geomorfologie. Edit. Academiei, R.S.R. București, (in Romanian).
  • Badea L., 2008. Unităţile de rel ief din România. Vol. III  –  Dealurile pericarpatice: Dealurile Crișanei și Banatului, Subcarpații. Edit. Ars Docendi, București, (in Romanian).
  • Bălteanu D., 1983. Experimentul de teren în Geomorfologie. Aplicații la Subcarpații Buzăului. Edit. Academiei R.S.R., București, (in Romanian).
  • Bălteanu D., 1986. The importance of mass movements in the Romanian Subcarpathians. Zeitschrift für Geomorphologie 58, 173–190.
  • Bălteanu D., 1992. Natural hazards in Romania. Revue Roumaine de Géographie 36, 47–55.
  • Bălteanu D., 1997. Geomorphological hazards in Romania. [in:] C. Embleton, C. Embleton (eds.), Geomorphological Hazards of Europe. Elsevier, Amsterdam, 409–420.
  • Bălteanu D., Chendeş V., Sima M., Enciu P., 2010. A country-wide spatial assessment of landslide susceptibility in Romania. Geomorphology, Special Issue 124, 3–4, 102–112, https://doi.org/10.1016/j.geomorph.2010.03.005
  • Bălteanu D., Jurchescu M., Surdeanu V., Ionita I., Goran C., Urdea P., Rădoane M., Rădoane N., Sima M., 2012. Recent landform evolution in the Romanian Carpathians and Pericarpathian Regions. [in:] D. Loczy, M. Stankoviansky, A. Kotarba (eds.), Recent Landform Evolution: the Carpatho-Balkan-Dinaric Region. Springer Geography, Springer, Dordrecht, 249–286, https://doi.org/10.1007/978-94-007-2448-8_10.
  • Bălteanu D., Mateescu F., 1973. Procese de modelare actuală a reliefului, sheet III/2, 1: 1 000 000. [in:] IGAR (ed.), Atlasul R. S. România. Edit. Academiei R.S.R., București, (in Romanian).
  • Bălteanu D., Micu M., Jurchescu M., Malet J.P., Sima M., Kucsicsa G., Dumitrică C., Petrea D., Mărgărint M.C., Bilaşco Ș., Dobrescu C.F., Călăraşu E.A., Olinic E., Boți I., Senzaconi F., 2020. National-scale landslide susceptibility map of Romania in a European methodological framework. Geomorphology 371, 15 December 2020, 107432, https://doi.org/10.1016/j.geomorph.2020.107432.
  • Bălteanu D., Micu M., Kucsicsa G., Sima M., Jurchescu M., 2017. Cercetări geomorfologice interdisciplinare asupra alunecărilor de teren declanșate de cutremure, ACADEMICA 2 – 3, 27 (316–317), 32 – 38, (in Romanian).
  • Bogdan O., 2005. Caracteristici ale hazardurilor/riscurilor climatice pe teritoriul României. Mediul Ambiant 5, 23, 26 – 36, (in Romanian).
  • Bojariu R., Bîrsan M-V., Cică R., Velea L., Burcea S., Dumitrescu A., Dascălu S.I., Gothard M., Ș. Dobrinescu A., Cărbunaru F., Marin L., 2015. Schimbările climatice – de la bazele fizice la riscuri și adaptare. Printech, București, (in Romanian).
  • Brânduş C., 1981. Subcarpaţii Tazlăului. Studiu geomorfologic. Edit. Academiei R.S.R., Bucureşti, (in Romanian).
  • Chițu Z., 2010. Predicţia spaţio-temporală a hazardului la alunecări de teren utilizând tehnici S.I.G. Studiu de caz arealul subcarpatic dintre Valea Prahovei şi Valea Ialomiţei. Manuscript PhD thesis, University of Bucharest, (in Romanian).
  • Chițu Z., Bogaard T.A., Busuioc A., Burcea S., Șandric I., Adler M-J., 2017. Identifying hydrological pre-conditions and rainfall triggers of slope failures at catchment scale for 2014 storm events in the Ialomita Subcarpathians, Romania. Landslides 14, 419–434, https://doi.org/10.1007/s10346-016-0740-4.
  • Chițu Z., Istrate A., Adler M-J., Șandric I., Olariu B., Mihai B., 2015, Comparative study of the methods for assessing landslide susceptibility in Ialomiţa Subcarpathians, Romania. [in:] G. Lollino, D. Giordan, G.B. Crosta, J. Corominas, R. Azzam, J. Wasowski, N. Sciarra (eds.), Engineering Geology for Society and Territory. Vol. 2 – Landslide Processes. IAEG XII Congress. Springer International Publishing, Cham., 1205 – 1209, https://doi.org/10.1007/978-3-319-09057-3_211.
  • Chițu Z., Șandric I., Mihai B., Săvulescu I., 2009. Evaluate Landslide Susceptibility using Statistical Multivariate Methods: A case-study in the Prahova Subcarpathians. [in:] J.P. Malet, A. Remaître, T. Bogaard (eds.), Landslide processes from geomorphologic mapping to dynamic modelling. CERG Edit., Strasbourg, 265 – 270.
  • Cioacă A., Dinu M., 2000. The impact of exploiting natural subsoil resources on Subcarpathian relief (Romania). Geografia Fisica e Dinamica Quaternaria 23, 131 – 137.
  • Constantin M., Bednarik M., Jurchescu M., Vlaicu M., 2011. Landslide susceptibility assessment using bivariate statistical analysis and the index of entropy in the Sibiciu Basin (Romania). Environmental Earth Sciences 63, 397–406, https://doi.org/10.1007/s12665-010-0724-y.
  • Damen M., Micu M., Zumpano V., Van Westen CJ., Sijmons K., Bălteanu D., 2014. Landslide mapping and interpretation: implications for landslide susceptibility analysis in discontinuous data environment. [in:] Proceedings of the International Conference Analysis and Management of Changing Risks for Natural Hazards. 177–186, https://doi.org/10.13140/2.1.2227.6161.
  • de Martonne E., 1902. La Valachie. Essai de monographie gèographique. Edit. Armand Colin, Paris, 15.
  • de Martonne E., 1907. Recherchessur l’evolution morphologique des Alpes de Transylvanie (Karpates méridionales). Revue de Géographie Annuelle 1, Paris, 21, 1 – 286.
  • Dinu M. 1999. Subcarpaţii dintre Topolog şi Bistriţa Vâlcii: Studiul proceselor actuale de modelare a versanților. Edit. Academiei Române, Bucureşti, (in Romanian).
  • Dragotă C., Micu M., Micu D., 2008. The relevance of pluvial regime for landslide genesis and evolution. Case study: Muscel basin (Buzău Subcarpathians, Romania). [in:] A. Ursu et al. (eds.), Present Environment and Sustainable Development. Vol 2 (1). Edit. Universităţii “Al. I. Cuza”, Iaşi, 242–257.
  • EEA (European Environmental Agency), 2006. Copernicus Land Monitoring Service – Corine Land Cover 2006. Accessed online 18.01.2016, https://land.copernicus.eu/pan-european/corine-land-cover/clc-2006.
  • EEA (European Environmental Agency), 2012. Copernicus Land Monitoring Service – Corine Land Cover 2012. Accessed online 18.01.2016, https://land.copernicus.eu/pan-european/corine-land-cover/clc-2012.
  • Glade T., 2003. Landslide occurrence as a response to landuse change:Areviewof evidence from New Zealand. Catena 5, 3–4, 297–314, https://doi.org/10.1016/S0341-8162(02)00170-4.
  • Grozavu A., 2003. Subcarpaţii dintre Trotuş şi Şuşiţa. Studiu fizico-geografic. Edit. Corson, Iaşi, (in Romanian).
  • Grumăzescu H., 1973. Subcarpații dintre Cîlnău și Șușița. Studiu geomorfologic. Edit. Academiei R.S.R., București, (in Romanian).
  • Hussin H., Zumpano V., Reichenbach P., Sterlacchini S., Micu M., Van Westen CJ., Bălteanu D., 2016. Different landslide sampling strategies in a grid-based bi-variate statistical susceptibility model. Geomorphology 253, 508 – 523, https://doi.org/10.1016/j.geomorph.2015.10.030.
  • IGAR (Institute of Geography, Romanian Academy), 1983. Geografia României. Vol. I  –  Geografie fizică, 3. Relieful. Edit. Academiei R.S.R., Bucureşti, (in Romanian).
  • IGAR (Institute of Geography, Romanian Academy), 1992. Geografia României. Vol. IV  –  Regiunile pericarpatice: Dealurile şi Câmpia Banatului şi Crişanei, Podişul Mehedinţi, Subcarpaţii, Piemontul Getic, Podişul Moldovei. Edit. Academiei, Bucureşti, (in Romanian).
  • Jurchescu M., 2012. Bazinul morfohidrografic al Oltețului. Studiu de geomorfologie aplicată. Manuscript PhD thesis, University of Bucharest, București, (in Romanian).
  • Jurchescu M., Bălteanu D., Sima M., Micu M., Micu D., Chendeş V., 2016. An Approach to Assess Climate-Induced Changes of Landslide Hazard and Risk in Romania. [in:] E3S Extreme Events and Environments: from Climate to Society cross community workshop, Feb. 14 – 16, 2016, Berlin.
  • Jurchescu M., Micu D., Sima M., Bălteanu D., Bojariu R., Dumitrescu A., Dragotă C., Micu M., Senzaconi F., 2017a. An Approach to Investigate the Effects of Climate Change on Landslide Hazard at a National Scale (Romania). [in:] M. Niculiţă, M.C. Mărgărint (eds.), Proceedings of Romanian Geomorphology Symposium. Iaşi, 11 – 14May 2017. Edit. Universităţii «Alexandru Ioan Cuza» din Iaşi, Iaşi, 121 – 124, https://doi.org/10.15551/prgs.2017.121.
  • Jurchescu M., Micu D., Sima M., Bălteanu D., Bojariu R., Dumitrescu A., Dragotă C., Micu M., Senzaconi F., in prep. A national-scale assessment of rainfall-induced landslide hazard (Romania).
  • Jurchescu M., Sima M., Bălteanu D., Kucsicsa G., Şerban P., Mitrică B., Lupu L., Micu M., Bilaşco Ș., Mărgărint C., Petrea D., Senzaconi F., 2017b. Integrated approach to assess vulnerability as a means towards quantifying landslide consequences at a national level (Romania). [in:] 9th International Conference on Geomorphology (9th ICG), Abstract Volume. New Delhi, India, 275.
  • Jurchescu M., Sima M., Micu D., Bălteanu D., Bojariu R., Dumitrescu A., Dragotă C., Micu M., Senzaconi F., in prep. Potential climate change impacts on landslide hazard in Romania. A national-level investigation.
  • Kucsicsa G., Popovici E.A., Bălteanu D., Grigorescu I., Dumitrașcu M., Mitrică B., 2019. Future land use/cover changes in Romania: regional simulations based on CLUE-Smodel and CORINE land cover database. Landscape and Ecological Engineering 15, 1, 75–90, https://doi.org/10.1007/s11355-018-0362-1.
  • Loghin V., 2002. Modelarea actuală a reliefului şi degradarea terenurilor în bazinul Ialomiţei. Edit. Cetatea de Scaun, Târgovişte, (in Romanian).
  • Macovei G., Botez G., 1923. Alunecări și prăbușiri de teren în județul Râmnicu-Sărat. Dări de seamă, Institutul Geologic al României, VI, 1914–1915, București, (in Romanian).
  • Mărgărint M.C., Grozavu A., Patriche C.V., 2013. Assessing the spatial variability of coefficients of landslide predictors in different regions of Romania using logistic regression. Natural Hazards and Earth System Sciences 13, 3339–3355, https://doi.org/10.5194/nhess-13-3339-2013
  • Micu M., 2008. Evaluarea hazardului legat de alunecări de teren in Subcarpații dintre Buzău și Teleajen. Manuscript PhD thesis, Institute of Geography, București, (in Romanian).
  • Micu M., 2011. Landslide assessment: from field mapping to risk management. A case-study in the Buzău Subcarpathians. Forum Geografic. Studii și Cercetări de Geografie și Protecția Mediului 10, 1, 70 – 77, http://dx.doi.org/10.5775/fg.2067-4635.2011.021.i.
  • Micu M., 2017. Landslide types and spatial pattern in the Subcarpathian area. [in:] M. Radoane, A. Vespremeanu-Stroe (eds.), Landform dynamics and evolution in Romania. Springer International Publishing, Switzerland, 305–325, https://doi.org/10.1007/978-3-319-32589-7_13.
  • Micu M., Bălteanu D., 2009. Landslide hazard assessment in the Bend Carpathians and Subcarpathians, Romania. Zeitschrift für Geomorphologie 53, Suppl. 3, 49–64, https://doi.org/10.1127/0372-8854/2009/0053S3-0031.
  • Micu M., Jurchescu M., Micu D., Zarea R., Zumpano V., Bălteanu D., 2014. A morphogenetic insight into a multi-hazard analysis: Bâsca Mare landslide dam. Landslides 11, 6, 1131 – 1139, https://doi.org/10.1007/s10346-014-0519-4.
  • Mihăilescu V., 1939. Porniturile de teren și clasificarea lor. Revista Geografică Română 2, 2 – 3, 106 – 113 (in Romanian).
  • Mihăilescu V., 1943. Alunecările de la Strâmbu (județul Dîmbovița). Buletinul Societății Regale Române de Geografie 61 (1942), (in Romanian).
  • MMAP (Romanian Ministry of Environment, Waters and Forests), 2015. Date GIS. Accessed online 12.03.2016, http://www.mmediu.ro/articol/date-gis/434.
  • Morariu T., 1974. Le système des glissements de terrain en Roumanie. Revue Roumaine de Géologie Géophysique et Géographie: Série Géographie 18, 1, 9–17.
  • Moțoc M., 1982. Ritmul mediu de degradare erozională a teritoriului României. Buletinul Informativ al Academiei de Ştiinţe Agricole şi Silvice 11, 47 – 65, (in Romanian).
  • Mrazec L., 1900. Contribution à l’étude de la dépression subcarpatique. Buletinul Societății de Sciințe/Bulletin de la Société de Sciences 9, 6, 2p.
  • Munteanu Murgoci G., 1905. Tertiary formations of Oltenia with regard to salt, petroleum, and mineral springs. Journal of Geology 13, Chicago, 670 – 711.
  • Mutihac V., Mutihac G., 2010, Geologia Romaniei in contextul geostructural central-esteuropean. Edit. Didactica si Pedagogica, Bucuresti, (in Romanian).
  • NIS (National Institute of Statistics), 2011. Tempo Online, Baza de date statistice, 2011. Accessed online 20.03.2019, http://statistici.insse.ro:8077/tempo-online/#/pages/tables/insse-table.
  • Popovici A., Kucsicsa G., Bălteanu D., Șandric I., Micu M., 2012. Land-use changes as uncertainties in landslide hazard assessment. An application in Vrancea Seismic Region. [in:] Geophysical Research Abstracts. Vol. 14. EGU General Assembly 2012, EGU2012-5749.
  • Popp N., 1936. Clasificări geografice în Subcarpații românești, Buletinul Societății Regale Române de Geografie 60, (in Romanian).
  • Prefac Z., Dumitru S., Chendeş V., Sîrodoev I., Cracu G., 2016. Assessment of landslide susceptibility using the certainty factor: Râșcuța catchment (Curvature Subcarpathians) case study. Carpathian Journal of Earth and Environmental Sciences 11, 2, 617 – 626.
  • Promper C., Puissant A., Malet J-P., Glade T. (2014), Analysis of land cover changes in the past and the future as contribution to landslide risk scenarios. Applied Geography 53, 11 – 19, https://doi.org/10.1016/j.apgeog.2014.05.020.
  • Riedmann M., Bindrich M., Damen M., Van Westen C.J., Micu M., 2014. Generating a landslide inventory map using stereo photo interpretation and radar interferometry techniques, a case study from the Buzău Mountains area, Romania. [in:] Proceedings of the International Conference Analysis and Management of Changing Risks for Natural Hazards, 18 – 19 November 2014. Padua, Italy, 571 – 577.
  • RO-RISK, 2016 – 2018. Evaluarea riscului de dezastre la nivel național – IGAR (Institute of Geography of the Romanian Academy), TUCEB (Technical University of Civil Engineering Bucharest), URBAN-INCERC (National Institute for Constructions, Urban Development and Sustainable Land Planning), NMA (National Meteorological Administration), NIEP (National Institute for Earth’s Physics). Evaluarea riscului la deplasări în masă. Internal project report (in Romanian)., https://gis.ro-risk.ro/site/
  • Roșu Al., 1967. Subcarpații Olteniei dintre Motru și Gilort. Studiu geomorphologic. Edit. Academiei, București, (in Romanian).
  • Șandric I., 2005. Aplicaţii ale teoriei probabilităţilor condiţionate în geomorfologie. Analele Universităţii Bucureşti 54, 83–97, (in Romanian).
  • Șandric I. 2008. Sistem informaţional geografic temporal pentru analiza hazardelor naturale. O abordare bayesiană cu propagare a erorilor. Manuscript PhD thesis, University of Bucharest, București, (in Romanian).
  • Șandric I., Chițu Z., 2009. Landslide inventory for the administrative area of Breaza, Curvature Subcarpathians, Romania. Journal of Maps 5, 1, 75–86, https://doi.org/10.4113/jom.2009.1051.
  • Șandric I., Chițu Z., Mihai B., Săvulescu I., 2011. Landslide Susceptibility for the Administrative Area of Breaza, Prahova County, Curvature Subcarpathians, România. Journal of Maps 7, 1, 552–563, https://doi.org/10.4113/jom.2011.1168.
  • Șandric I., Ionita C., Chițu Z., Dardala M., Irimia R., Furtuna F.T., 2019. Using CUDA to accelerate uncertainty propagation modelling for landslide susceptibility assessment. Environmental Modelling & Software 115,176 – 186, https://doi.org/10.1016/j.envsoft.2019.02.016.
  • Schüller G., 1883. Notice sur le tremblement de terre du 11/23 Janvier 1838. Bulletin de la Société Géologique de Roumanie, 22 – 45.
  • Tufescu V., 1966. Modelarea naturală a reliefului și eroziunea accelerată. Edit. Academiei R.S.R., București, (in Romanian).
  • Zugrăvescu D., Polonic G., Horomnea M., Dragomir V., 1998. Recent vertical movements on the Romanian territory, major tectonic compartments and their relative dynamics. Revue Roumaine de Géophysique 42, 3 – 14.
  • Zumpano V., Hussin H., Reichenbach P., Bãlteanu D., Micu M., Sterlacchini S., 2014. A landslide susceptibility analysis for Buzãu County, Romania. Revue Roumaine de Géographie/Romanian Journal of Geography 58, 1, 9 –16.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
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