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THE IMPACT OF THE LANDSLIDES ON LAND USE AND LIVING STANDARDS IN TARNAVA MICA HILLS

Rusu, Raularian, Rosian, Gheorghe, Dezsi, Stefan, Badarau, Alexandru-Sabin

First published: 2014-06-20https://doi.org/10.5593/sgem2014/b53/s21.061View metrics

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Title
THE IMPACT OF THE LANDSLIDES ON LAND USE AND LIVING STANDARDS IN TARNAVA MICA HILLS
Authors
Rusu, Raularian, Rosian, Gheorghe, Dezsi, Stefan, Badarau, Alexandru-Sabin
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 14th SGEM GeoConference on ECOLOGY, ECONOMICS, EDUCATION AND LEGISLATION
Publisher
Stef92 Technology
Year
2014
Pages
Not available yet
ISSN
1314-2704
ISBN
978-619-7105-19-3
Language
en
Publication type
Conference Paper
References30
  1. Armaș Iuliana, ( 2011), An analytic multicriteria hierarchical approach to assess landslide vulnerability. Case study: Cornu Village/Romania , Zeitschrift fur Geomorphologie 55/2, 209-229.

  2. Bălteanu, D., Micu, M. , (2009), Landslide investigation: from morphodynamic mapping to hazard assessment. A case-study in the Romanian Subcarpathians: Muscel Catchment, in Landslide Process from Geomorphologic Mapping to Dynamic Modelling, CERG, Strasbourg, 235-241.

  3. Bălteanu, D., Chendeş, V., Sima, Mihaela, Enciu, P. (20 10), A country level spatial assessment of landslide susceptibility in Romania , Geomorphology, Volume: 124, Issue: 3-4 Special Issue: SI Pages: 102 – 112.

  4. Carrara, A., Cardinali, M., Guzzetty, F. & Reichenbach, P., (1995), Geomorphical Information Systems in Assessing Natural Hazards, Kluwer Academic Publisher, Dordrecht, Netherlands, 135-175.

  5. Dhakal, A.S., Amada, T. & Aniya, M., (2000), Landslide hazard mapping and its evaluation using GIS: An investigation of sampling schemes for a grid-cell based quantitative method, Photogrammetric Eng. & Remote Sensing, 66(8), 981–989. 14th SGEM GeoConference on Ecology, Economics, Education and Legislation

  6. Krézsek, C., Filipescu, S. (2005), Middle to late Miocene sequence stratigraphy of the Transylvanian Basin (Romania), Tectonophysics, vol. 410 (1-4), pp. 437-463.

  7. Krézsek, C., Bally, W .A. (2006), The Transylvanian Basin (Romania) and its relation to the Carpathian fold and thrust belt: Insights in the gravitational salt tectonics, Marine and Petroleum Geology, vol. 23 (4), pp. 405-442.

  8. Măcicăşan, V., Muntean., L., Roşian, G., Maloş, C., Mihăiescu, R., Baciu, N. (2013), An integrated geomorphological approach for quarry rehabilitation (A ghireș mining area, Romania), Carpathian Journal of Earth and Environmental Sciences, 8(3), 187-198.

  9. P etrea, D., Bilaşco, S., Roşca, S., Vescan, I., Fodorean I., (2014), The determination of the landslide occurrence probability by GIS spatial analysis of the land morphometric characteristics (case study: the Transylvanian Plateau) , Carpathian Journal of Earth and Environmental Sciences, 9(2), 91-102.

  10. Roșian, G., Rusu, R., Tahâș, S. (2010), The Degree of Finishing of the Drainage Basins of the Transylvanian Depression , Studia Universitatis Babeş -Bolyai, Cluj- Napoca, Seria Geographia, nr. 2, pp. 69-76.

  11. Sanders, C. (1999), Tectonics and erosion. Competitive forces in a compressive orogen. A fission track study of the Romanian Carpathians , PhD thesis, Univ. Vrije, Amsterdam, 204 p.

  12. Sanders, C., Huismans, R., Vanwees, J.D., Andriessen, P. (2002), The Neogene history of the Transylvanian basin in relation to its surrounding mountains , European Geosciences Union, Stephan Mueller Special Publication Series, 3, pp. 121-133.

  13. Sarkar, S. & Kanungo, D.P., (2004), An integrated approach for landslide susceptibility mapping using remote sensing and GIS , Photogrammetric Engineering and Remote Sensing, 70(5), 617–625.

  14. Sarkar, S., Kanungo, D.P., Patra A.K., Pushpendra Kumar (2006), GIS Based Landslide Susceptibility Mapping – A Case Study in Indian Himalaya , Disaster Mitigation of Debris Flows, Slope Failures and Landslides, Universal Academy Press, Inc. / Tokyo, Japan, pp. 617–624.

  15. Varnes, D. J., (1978), Slope movement types and processes, in Landslides, Analysis and Control, Special Report 176, Transportation Research Board, Washington, pp. 11- 33.

  16. Armaș Iuliana, ( 2011), An analytic multicriteria hierarchical approach to assess landslide vulnerability. Case study: Cornu Village/Romania , Zeitschrift fur Geomorphologie 55/2, 209-229.

  17. Bălteanu, D., Micu, M. , (2009), Landslide investigation: from morphodynamic mapping to hazard assessment. A case-study in the Romanian Subcarpathians: Muscel Catchment, in Landslide Process from Geomorphologic Mapping to Dynamic Modelling, CERG, Strasbourg, 235-241.

  18. Bălteanu, D., Chendeş, V., Sima, Mihaela, Enciu, P. (20 10), A country level spatial assessment of landslide susceptibility in Romania , Geomorphology, Volume: 124, Issue: 3-4 Special Issue: SI Pages: 102 – 112.

  19. Carrara, A., Cardinali, M., Guzzetty, F. & Reichenbach, P., (1995), Geomorphical Information Systems in Assessing Natural Hazards, Kluwer Academic Publisher, Dordrecht, Netherlands, 135-175.

  20. Dhakal, A.S., Amada, T. & Aniya, M., (2000), Landslide hazard mapping and its evaluation using GIS: An investigation of sampling schemes for a grid-cell based quantitative method, Photogrammetric Eng. & Remote Sensing, 66(8), 981–989. 14th SGEM GeoConference on Ecology, Economics, Education and Legislation

  21. Krézsek, C., Filipescu, S. (2005), Middle to late Miocene sequence stratigraphy of the Transylvanian Basin (Romania), Tectonophysics, vol. 410 (1-4), pp. 437-463.

  22. Krézsek, C., Bally, W .A. (2006), The Transylvanian Basin (Romania) and its relation to the Carpathian fold and thrust belt: Insights in the gravitational salt tectonics, Marine and Petroleum Geology, vol. 23 (4), pp. 405-442.

  23. Măcicăşan, V., Muntean., L., Roşian, G., Maloş, C., Mihăiescu, R., Baciu, N. (2013), An integrated geomorphological approach for quarry rehabilitation (A ghireș mining area, Romania), Carpathian Journal of Earth and Environmental Sciences, 8(3), 187-198.

  24. P etrea, D., Bilaşco, S., Roşca, S., Vescan, I., Fodorean I., (2014), The determination of the landslide occurrence probability by GIS spatial analysis of the land morphometric characteristics (case study: the Transylvanian Plateau) , Carpathian Journal of Earth and Environmental Sciences, 9(2), 91-102.

  25. Roșian, G., Rusu, R., Tahâș, S. (2010), The Degree of Finishing of the Drainage Basins of the Transylvanian Depression , Studia Universitatis Babeş -Bolyai, Cluj- Napoca, Seria Geographia, nr. 2, pp. 69-76.

  26. Sanders, C. (1999), Tectonics and erosion. Competitive forces in a compressive orogen. A fission track study of the Romanian Carpathians , PhD thesis, Univ. Vrije, Amsterdam, 204 p.

  27. Sanders, C., Huismans, R., Vanwees, J.D., Andriessen, P. (2002), The Neogene history of the Transylvanian basin in relation to its surrounding mountains , European Geosciences Union, Stephan Mueller Special Publication Series, 3, pp. 121-133.

  28. Sarkar, S. & Kanungo, D.P., (2004), An integrated approach for landslide susceptibility mapping using remote sensing and GIS , Photogrammetric Engineering and Remote Sensing, 70(5), 617–625.

  29. Sarkar, S., Kanungo, D.P., Patra A.K., Pushpendra Kumar (2006), GIS Based Landslide Susceptibility Mapping – A Case Study in Indian Himalaya , Disaster Mitigation of Debris Flows, Slope Failures and Landslides, Universal Academy Press, Inc. / Tokyo, Japan, pp. 617–624.

  30. Varnes, D. J., (1978), Slope movement types and processes, in Landslides, Analysis and Control, Special Report 176, Transportation Research Board, Washington, pp. 11- 33.

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