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ASSESSMENT OF FLOOD HAZARD AND RISK USING GIS AND HISTORICAL DATA. CASE-STUDY: THE NIRAJ RIVER BASIN (TRANSYLVANIA DEPRESSION, ROMANIA)

Rosca, Sanda, Petrea, Danut, Bilasco, Stefan, Rus, Asoc.Prof. Ioan, Irimus, Ioan, Fodorean, Ioan, Vescan, Lect. Iuliu

First published: 2014-06-20https://doi.org/10.5593/sgem2014/b23/s11.063View metrics

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Title
ASSESSMENT OF FLOOD HAZARD AND RISK USING GIS AND HISTORICAL DATA. CASE-STUDY: THE NIRAJ RIVER BASIN (TRANSYLVANIA DEPRESSION, ROMANIA)
Authors
Rosca, Sanda, Petrea, Danut, Bilasco, Stefan, Rus, Asoc.Prof. Ioan, Irimus, Ioan, Fodorean, Ioan, Vescan, Lect. Iuliu
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 14th SGEM GeoConference on INFORMATICS, GEOINFORMATICS AND REMOTE SENSING
Publisher
Stef92 Technology
Year
2014
Pages
Not available yet
ISSN
1314-2704
ISBN
978-619-7105-12-4
Language
en
Publication type
Conference Paper
References30
  1. Stanciu P., Chende ş V., Mătreaţă M., Corbuş C. , G.I.S. procedure for flood -prone areas mapping based on the results of the flood simulation models, Studia Universitas Babeş-Bolyai, Geographia vol 3, pp139-145, 2009;

  2. Directive 2007/60/EC of the Eur opean Parlament and of the Council of 23 October 2007 on the assessement and management of flood risks, Official Journal of the European Union, L 288/27, 6.11. 2007.

  3. National Strategy for Flood Risk Management, (Governmental Decision 1854 from 2005), 2005;

  4. *** 2003, Government Order no. 447 since April, 10, 2003, concerning the approval of the methodological rules related to the drafting and content of the natural hazards at floods and landslides maps, (in Romanian) published in Monitorul Oficial, May, 7. 2013;

  5. Roşca Sanda, The flash floods analysis, representative for Niraj river between 1970 - 2008, în Air and Water components of the Enviroment, Cluj Napoca, pp 560-567, 2011;

  6. Roşca Sanda, Petrea D., Iacob I., Niraj River’s channel migration: a response to hydro - climatic variability, în Air and Water components of the Enviroment, Cluj Napoca, pp 391-398, 2013;

  7. Apel, H., Thieken, A.H., Merz, B., Blöschl , G., Flood risk assessment and associated uncertainty, Natural Hazards and Earth System Sciences, European Geosciences Union, Vol.4, pp 295-308, 2004;

  8. Forte F., Pennetta L. and Strobl R. O. , Historic Records and GIS Applications for Flood Risk Analysis in the Salento Peninsula (Southern Italy), Natural Hazards and Earth System Science, Vol. 5, No. 6, pp. 833-844, 2005;

  9. Drobot, S. D., Benight, C. and Gruntfest E.C. Risk factors for driving into flooded roads. Environmental Hazards, 7, 227– 234, 2007;

  10. Sarhadi A., Soltani S., Modarres R., Probabilistic flood inundation mapping of ungauged rivers: Linking GIS techniques and frequency analysis, Journal of Hydrology, vol. 458-459, pp 68-86, 2012;

  11. Barredo, J. I., A. de Roo and Lavalle C., Flood Risk Mapping at European Scale, Water Science and Technology, Vol. 56, No. 4, pp. 1117, 2007;

  12. Bătinaş, R., Bilaşco, Şt., The use of G.I.S. techniques in estimating the Floodable stripes in relation with discharges value with low probabilities o f occurrence. Case study: River Arieş – Turda City, în Studia Universitatis Babeş-Bolyai, Geographia, LIV, 2, 2009;

  13. Bilaşco Șt.. Implementation of GIS in modeling flash -flood on slope, House of Science Book Press, Cluj Napoca. (In Romanian), pp 2008;

  14. Amaftiesei R (1998) Instructiuni de utilizare a modelului hidraulic unidimensional UNDA (in Romanian; Instructions for using a one-dimensional hydraulic model UNDA). National Institute of Hydrology and Water Management, Bucharest, Romania.

  15. Roşca Sanda, Petrea D., Iacob I., Vulnerability to channel migration on the Niraj river, în Geographia Napocensis, Cluj Napoca, no. 2, pp 2012;

  16. Stanciu P., Chende ş V., Mătreaţă M., Corbuş C. , G.I.S. procedure for flood -prone areas mapping based on the results of the flood simulation models, Studia Universitas Babeş-Bolyai, Geographia vol 3, pp139-145, 2009;

  17. Directive 2007/60/EC of the Eur opean Parlament and of the Council of 23 October 2007 on the assessement and management of flood risks, Official Journal of the European Union, L 288/27, 6.11. 2007.

  18. National Strategy for Flood Risk Management, (Governmental Decision 1854 from 2005), 2005;

  19. *** 2003, Government Order no. 447 since April, 10, 2003, concerning the approval of the methodological rules related to the drafting and content of the natural hazards at floods and landslides maps, (in Romanian) published in Monitorul Oficial, May, 7. 2013;

  20. Roşca Sanda, The flash floods analysis, representative for Niraj river between 1970 - 2008, în Air and Water components of the Enviroment, Cluj Napoca, pp 560-567, 2011;

  21. Roşca Sanda, Petrea D., Iacob I., Niraj River’s channel migration: a response to hydro - climatic variability, în Air and Water components of the Enviroment, Cluj Napoca, pp 391-398, 2013;

  22. Apel, H., Thieken, A.H., Merz, B., Blöschl , G., Flood risk assessment and associated uncertainty, Natural Hazards and Earth System Sciences, European Geosciences Union, Vol.4, pp 295-308, 2004;

  23. Forte F., Pennetta L. and Strobl R. O. , Historic Records and GIS Applications for Flood Risk Analysis in the Salento Peninsula (Southern Italy), Natural Hazards and Earth System Science, Vol. 5, No. 6, pp. 833-844, 2005;

  24. Drobot, S. D., Benight, C. and Gruntfest E.C. Risk factors for driving into flooded roads. Environmental Hazards, 7, 227– 234, 2007;

  25. Sarhadi A., Soltani S., Modarres R., Probabilistic flood inundation mapping of ungauged rivers: Linking GIS techniques and frequency analysis, Journal of Hydrology, vol. 458-459, pp 68-86, 2012;

  26. Barredo, J. I., A. de Roo and Lavalle C., Flood Risk Mapping at European Scale, Water Science and Technology, Vol. 56, No. 4, pp. 1117, 2007;

  27. Bătinaş, R., Bilaşco, Şt., The use of G.I.S. techniques in estimating the Floodable stripes in relation with discharges value with low probabilities o f occurrence. Case study: River Arieş – Turda City, în Studia Universitatis Babeş-Bolyai, Geographia, LIV, 2, 2009;

  28. Bilaşco Șt.. Implementation of GIS in modeling flash -flood on slope, House of Science Book Press, Cluj Napoca. (In Romanian), pp 2008;

  29. Amaftiesei R (1998) Instructiuni de utilizare a modelului hidraulic unidimensional UNDA (in Romanian; Instructions for using a one-dimensional hydraulic model UNDA). National Institute of Hydrology and Water Management, Bucharest, Romania.

  30. Roşca Sanda, Petrea D., Iacob I., Vulnerability to channel migration on the Niraj river, în Geographia Napocensis, Cluj Napoca, no. 2, pp 2012;

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