Application of the analytical hierarchy process (AHP) for landslide susceptibility mapping: A case study from the Tinau watershed, west Nepal
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Acharya, 2006, Assessing landslide hazard in GIS: a case study from Rasuwa, Nepal, Bulletin of Engineering Geology and the Environment, 65, 99, 10.1007/s10064-005-0025-y
Akgun, 2012, A comparison of landslide susceptibility maps produced by logistic regression, multi-criteria decision, and likelihood ratio methods: a case study at İzmir, Turkey, Landslides, 9, 93, 10.1007/s10346-011-0283-7
Akgun, 2010, Landslide susceptibility mapping for Ayvalik (Western Turkey) and its vicinity by multicriteria decision analysis, Environmental Earth Sciences, 61, 595, 10.1007/s12665-009-0373-1
Aleotti, 1999, Landslide hazard assessment: summary review and new perspectives, Bulletin of Engineering Geology and the Environment, 58, 21, 10.1007/s100640050066
Ayalew, 2005, Landslides in Sado Island of Japan: Part II. GIS-based susceptibility mapping with comparisons of results from two methods and verifications, Engineering Geology, 81, 432, 10.1016/j.enggeo.2005.08.004
Ayalew, 2004, Landslide susceptibility mapping using GIS-based weighted linear combination, the case in Tsugawa area of Agano River, Niigata prefecture, Japan, Landslides, 1, 73, 10.1007/s10346-003-0006-9
Barredo, 2000, Comparing heuristic landslide hazard assessment techniques using GIS in the Tirajana basin, Gran Canaria Island, Spain, International Journal of Applied Earth Observation and Geoinformation, 2, 9, 10.1016/S0303-2434(00)85022-9
Bijukchhen, 2012, A comparative evaluation of heuristic and bivariate statistical modelling for landslide susceptibility mappings in Ghurmi–Dhad Khola, east Nepal, Arabian Journal of Geosciences, 10.1007/s12517-012-0569-7
Brabb, E.E., 1984. Innovative approaches to landslide hazard and risk mapping. In: Fourth International Symposium on landslides, Canadian Geotechnical Society, Toronto, Canada. Vol 1: pp. 307–324.
Carrara, 1995, GIS technology in mapping landslide hazard, 135
Chung, 1999, Probabilistic prediction models for landslide hazard mapping, Photogrammetric Engineering and Remote Sensing, 65, 1389
Dahal, 2008, Representative rainfall thresholds for landslides in the Nepal Himalaya, Geomorphology, 100, 429, 10.1016/j.geomorph.2008.01.014
Dahal, 2008, Predictive modelling of rainfall-induced landslide hazard in the Lesser Himalaya of Nepal based on weights-of-evidence, Geomorphology, 102, 496, 10.1016/j.geomorph.2008.05.041
Deoja, B.B., Dhital, M.R., Thapa, B., Wagner, A. (Eds.), 1991. Mountain Risk Engineering Handbook. International Centre for Integrated Mountain Development (ICIMOD), Kathmandu, Nepal, 875 pp.
Dhakal, 1999, Landslide hazard mapping and the application of GIS in the Kulekhani watershed Nepal, Mountain Research and Development, 19, 3, 10.2307/3674109
Dhital, M.R., Khanal, N., Thapa, K.B., 1993. The role of extreme weather events, mass movements, and land- use changes in increasing natural hazards. Workshop Proceedings: Causes of the Recent Damage Incurred in South-Central Nepal, July 19–21, ICIMOD, Kathmandu, Nepal, 123 pp.
DWIDP (Department of Water Induced Disaster Prevention), 2010. Annual Disaster Review 2009. Ministry of Irrigation, Government of Nepal, Kathmandu, Nepal, 24 pp.
Dubey, 2005, Visualization of 3-D digital elevation model for landslide assessment and prediction in mountainous terrain: A case study of Chandmari landslide Sikkim, eastern Himalayas, Geosciences Journal, 9, 363, 10.1007/BF02910325
Gabet, 2004, Rainfall thresholds for landsliding in the Himalayas of Nepal, Geomorphology, 63, 131, 10.1016/j.geomorph.2004.03.011
Ghimire, 2001, Geo-hydrological hazard and risk zonation of Banganga watershed using GIS and remote sensing, Journal of Nepal Geological Society, 23, 99, 10.3126/jngs.v23i0.32031
Gorsevski, 2003, Integrating a fuzzy k-means classification and a Bayesian approach for spatial prediction of landslide hazard, Journal of Geographical Systems, 5, 223, 10.1007/s10109-003-0113-0
Gorsevski, 2006, An heuristic approach for mapping landslide hazard by integrating fuzzy logic with analytic hierarchy process, Control and Cybernetics, 35, 121
Guzzetti, 1999, Landslide hazard evaluation: a review of current techniques and their application in a multi-scale study, Central Italy. Geomorphology, 31, 181, 10.1016/S0169-555X(99)00078-1
Hagen, T., 1969. Report on the Geological Survey of Nepal, Preliminary reconnaissance (Vol. 1) Mémoires de la soc. Helvétique des sci. naturelles, Zürich, 185 pp.
Hansen, 1984, Landslide hazard analysis, 523
Hasekioğullari, 2012, A new approach to use AHP in landslide susceptibility mapping: a case study at Yenice (Karabuk, NW Turkey), Natural Hazards, 63, 1157, 10.1007/s11069-012-0218-1
Hutchinson, J.N., 1995. Keynote paper: landslide hazard assessment, In: Bell, D.H. (Ed.), Landslides, Proceedings of the sixth International Symposium on Landslides, Christchurch, New Zealand, pp. 1805–1841.
Kanungo, 2009, Landslide susceptibility zonation (LSZ) mapping-A review, Journal of South Asia Disaster Studies, 2, 81
Kayastha, 2012, Application of fuzzy logic approach for landslide susceptibility mapping in Garuwa sub-basin, East Nepal, Frontiers of Earth Sciences, 10.1007/s11707-012-0337-8
Kayastha, 2012, Landslide susceptibility mapping using the weight of evidence method in the Tinau watershed, Nepal, Natural Hazards, 63, 479, 10.1007/s11069-012-0163-z
Leir, M., Michell, A., Ramsay, S., 2004. Regional landslide hazard susceptibility mapping for pipelines in British Columbia. Geo-engineering for the society and its environment. 57th Canadian Geotechnical Conference and the 5th Joint CGS-IAH conference, October 24–27, 2004, Old Quebec, Canada, pp. 1–9.
Long, 2012, Application of an analytical hierarchical process approach for landslide susceptibility mapping in A Luoi district, Thua Thien Hue Province, Vietnam, Environmental Earth Sciences, 66, 1739, 10.1007/s12665-011-1397-x
Mezughi, 2012, Analytical Hierarchy Process method for mapping landslide susceptibility to an area along the E-W Highway (Gerik-Jeli), Malaysia, Asian Journal of Earth Sciences, 5, 13, 10.3923/ajes.2012.13.24
Mondal, 2012, Landslide susceptibility analysis of Shiv-Khola watershed, Darjiling: a remote sensing & GIS based Analytical Hierarchy Process (AHP), Journal of the Indian Society of Remote Sensing, 40, 483, 10.1007/s12524-011-0160-9
Neaupane, 2006, Analytic network process model for landslide hazard zonation, Engineering Geology, 85, 281, 10.1016/j.enggeo.2006.02.003
Oguchi, 1997, Drainage density and relative relief in humid steep mountains with frequent slope failure, Earth Surface Processes and Landforms, 22, 107, 10.1002/(SICI)1096-9837(199702)22:2<107::AID-ESP680>3.0.CO;2-U
Pantha, 2010, GIS-based highway maintenance prioritization model: an integrated approach for highway maintenance in Nepal mountains, Journal of Transport Geography, 18, 426, 10.1016/j.jtrangeo.2009.06.016
Paudel, K.P., Kansakar, V.B.S., Khanal, N.R., 2004. Mapping and assessing risk and vulnerability of water induced disasters in the Tinau Watershed, Western Nepal. In: Global Symposium for Hazard Risk Reduction: Lessons Learned from the Applied Research Grants for Disaster Risk Reduction Program, 26–28 July, 2004, Washington, DC, pp. 69–82.
Phukon, 2012, Landslide susceptibility assessment in the Guwahati City, Assam using Analytic Hierarchy Process (AHP) and Geographic Information System (GIS), International Journal of Computer Applications in Engineering Sciences, 2, 1
Poudyal, 2010, Landslide susceptibility maps comparing frequency ratio and artificial neural networks: a case study from the Nepal Himalaya, Environmental Earth Sciences, 61, 1049, 10.1007/s12665-009-0426-5
Pourghasemi, 2012, Application of fuzzy logic and analytical hierarchy process (AHP) to landslide susceptibility mapping at Haraz watershed, Iran, Natural Hazards, 63, 965, 10.1007/s11069-012-0217-2
Ray, 2009, Slope stability analysis on a regional scale using GIS: a case study from Dhading, Nepal, Environmental Geology, 57, 1603, 10.1007/s00254-008-1435-5
Rozos, 2011, Comparison of the implementation of rock engineering system and analytic hierarchy process methods, upon landslide susceptibility mapping, using GIS: a case study from the Eastern Achaia County of Peloponnesus, Greece, Environmental Earth Sciences, 63, 49, 10.1007/s12665-010-0687-z
Saaty, 1977, A scaling method for priorities in hierarchical structures, Journal of Mathematical Psychology, 15, 234, 10.1016/0022-2496(77)90033-5
Saaty, 1980
Saaty, 2000, Vol VI
Saaty, 2001
Safaei, 2010, Applying geospatial technology to landslide susceptibility assessment., Electronic Journal of Geotechnical Engineering, 15, 677
Sakai, 1983, Geology of the Tansen Group of the Lesser Himalaya in Nepal, Memoirs of the Faculty of Science, Kyushu University, Series D, Geology, 25, 27, 10.5109/1546083
Sakai, 1985, Geology of the Kali Gandaki Supergroup of the Lesser Himalayas in Nepal, Memoirs of the Faculty of Science Kyushu University Series D, Geology, 25, 337, 10.5109/1546320
Sarkar, 2004, An integrated approach for landslide susceptibility mapping using remote sensing and GIS, Photogrammetric Engineering and Remote Sensing, 70, 617, 10.14358/PERS.70.5.617
Sharma, 2008, Rain induced shallow landslide hazard assessment for ungauged catchments, Hydrogeology Journal, 16, 871, 10.1007/s10040-008-0310-5
Shiwakoti, 2000, An assessment of soil loss and natural hazards in Nepal, Journal of Nepal Geological Society, 21, 41, 10.3126/jngs.v21i0.32150
Singh, 2012, A new slope mass rating in mountainous terrain, Jammu and Kashmir Himalayas: application of geophysical technique in slope stability studies, Landslides, 10.1007/s10346-012-0323-y
Soeters, 1996, Slope instability recognition, analysis and zonation, 129
Stocking, 1972, Relief analysis and soil erosion in Rhodesia using multivariate techniques, Zeitchrift für Geomorpholgie, 16, 432, 10.1127/zfg/16/1972/432
Thapa, 2000, Landslide and debris flows of 19–21 July 1993 in the Agra Khola watershed of central Nepal, Journal of Nepal Geological Society, 21, 5, 10.3126/jngs.v21i0.32143
Upreti, 1996
van Westen, 2003, Use of geomorphological information in indirect landslide susceptibility assessment, Natural Hazards, 30, 399, 10.1023/B:NHAZ.0000007097.42735.9e
Varnes, 1984
Wang, 2005, GIS-based landslide hazard assessment: an overview, Progress in Physical Geography, 29, 548, 10.1191/0309133305pp462ra
Wu, 2009, Determining landslide susceptibility in Central Taiwan from rainfall and six site factors using the analytical hierarchy process method, Geomorphology, 112, 190, 10.1016/j.geomorph.2009.06.002
Yalcin, 2008, GIS-based landslide susceptibility mapping using analytical hierarchy process and bivariate statistics in Ardesen (Turkey): comparisons of results and confirmations, Catena, 72, 1, 10.1016/j.catena.2007.01.003