Prioritization of Landslide Effective Factors and it´s Hazard Mapping   using Information Value and AHP Models (Case Study: A Part of Haraz Watershed)

Mohammady, M.; Morady, H.R.; Feiz Nia, S.; Pourghasemi, H.R.

doi:10.22071/gsj.2010.57315

Document Type : Original Research Paper

Authors

¹ Tarbiat Modares University, Faculty of Natural Resource & Marine Science, Mazandaran, Iran

² Tehran University, Faculty of Natural Resource, Karaj, Iran.

https://doi.org/10.22071/gsj.2010.57315

Abstract

Destruction and inordinate use of resources causes instability of natural slopes. Policymakers pay high attention to slopes instability investigation in order to supply zoning map to identify susceptible areas and stable location for the development of new settlements in the future. Iran especially in the north and Haraz road is always exposed to landslides hazard because of climatic and physiographic conditions. In order to prepare landslide susceptibility mapping, at first, landslide distribution map and the map of effective factors were supplied by field study. Then prioritization of effective factors was carried out using AHP method and seven factors were selected as most effective factor. Then landslide hazard zoning carried out using information value and AHP models. Results showed that Shemshak formation, fluvial terraces, distance of 500 meters from road, distance of 400 meters from drainage network, the west dip direction, slope of 15-50 percents, elevation of 1500-2100 meters, residential and agriculture-garden landuse have the highest landslide susceptibility.

Keywords

20.1001.1.10237429.1388.19.74.5.0

References

References

Ayalew, L., Yamagashi, H., Marui, H. & Kanno, T., 2005- Landslide in SadoIsland of japan: part II. GIS-based susceptibility mapping with comparisons of results from two methods and verifications. Enginering Geology, 81: 432-445.

Ayalew, L. & Yamagishi, H., 2005 -The Application of GIS – based logistic regression for landslide susceptibility mapping in the Kakuda–Yahiko Mountains, central Japan. Geomorphology 65:15-31pp.

Duman, T. Y., Can, T., Gokceoglu, C., Nefeslioglu, H. A., Sonmez, H., 2006 - Application of logistic regression for landslide susceptibility zoning of Cekmece Area, Istanbul, Turkey, Environmental Geology, 51, 241-256.

Komac, M., 2006- A landslide susceptibility model using the Analytical Hiererchy Process method and multivariate statistics in perialpine Sloveni. Geomorfology 74: 17-28.

Lan, H. X., Zhou, C. H., Wang, L. J., Zhang, H. Y. & Li, R. H., 2004- Landslide hazard spatial analysis and prediction using GIS in the Xiaojiang Watershed, Yunnan, China. Engineering Geology 76: 109-128.

Lee, S., 2007- Application and verification of fuzzy algebraic operators to landslide susceptibility mapping, Environmental Geology, 52, 615-623.

Neuhauser, B. & Terhorst, B., 2006- Landslide susceptibility assessment using “weights of evidence” applied to a study area at the Jurassic escarpment (SW-Germany). Geomorfology 1-13.

Ohlmacher, G. C. & Davis, J. C., 2003- Using multiple logistic regression and GIS technology to predict landslide hazard in Northeast Kansas, USA, Engineering Geology, 69: 331-343.

Remendo, J., Gonzales, A., Teran, J., Cendrero, A., Fabbri, A. & Chung, C., 2003- Validation of landslide susceptibility maps, examples and applications from a case study in northern Spain, Natural Hazard, 437-449.

Scientific Quarterly Journal of Geosciences

Prioritization of Landslide Effective Factors and it´s Hazard Mapping using Information Value and AHP Models (Case Study: A Part of Haraz Watershed)

References

References

Volume 19, Issue 74 - Serial Number 74
February 2010
Pages 27-32

Prioritization of Landslide Effective Factors and it´s Hazard Mapping using Information Value and AHP Models (Case Study: A Part of Haraz Watershed)

References

References

Volume 19, Issue 74 - Serial Number 74February 2010Pages 27-32

Volume 19, Issue 74 - Serial Number 74
February 2010
Pages 27-32