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Use of LIDAR-derived images for mapping old landslides under forest

  1. Ardizzone, Natural Hazards and Earth System Sciences, 2, 3 (2002)
  2. Carrara, Earth Surface Processes and Landforms, 16, 427 (1992)
  3. Carrara Alberto, Cardinali Mauro, Guzzetti Fausto, Reichenbach Paola, Gis Technology in Mapping Landslide Hazard, Geographical Information Systems in Assessing Natural Hazards (1995) ISBN:9789048145614 p.135-175, 10.1007/978-94-015-8404-3_8
  4. Carter, Eos, Transactions, American Geophysical Union, 82, 549,550,555 (2001)
  5. 2005. Management frameworks for landslide hazard and risk: Issues and options. In Landslide Hazard and Risk, , (eds). John Wiley and Sons: Chichester; 331– 350.
  6. . 1996. Landslide Types and Processes. In Landslides, Investigation and Mitigation, Transportation Research Board, (eds). National Research Council, Special Report 247. National Academy Press: Washington, DC; 36– 71.
  7. DEM of Flanders. 2005. MVG-LIN-AWZ and MVG-LIN-AMINAL (GIS-Vlaanderen). http://www.gisvlaanderen.be/gis/diensten/geo-vlaanderen/?artid=240 [10 January 2006].
  8. Demoulin, International Journal of Earth Science, 92, 795 (2003)
  9. GIS-Vlaanderen. 2003. Nieuwsbrief GIS-Vlaanderen: Digitaal Hoogtemodel Vlaanderen. Ondersteunend Centrum GIS-Vlaanderen: Gent. http://www.gisvlaanderen.be/gis/diensten/geo-vlaanderen/?artid=240
  10. Glenn, Geomorphology, 73, 131 (2006)
  11. 2004. A Comparative Study of Aerial Photographs and LIDAR Imagery for Landslide Detection in the Puget Lowland, Washington. Washington Division of Geology and Earth Resources. Open File Report 2004-6.
  12. Guzzetti, Environmental Management, 25, 247 (2000)
  13. Haneberg, AEG news, 48, 16 (2005)
  14. , , . 2005. Use of LIDAR to assess slope hazards at the Lihir gold mine, Papua New Guinea. Proceedings of 2005 International Conference on Landslide Risk Management, Vancouver, May/June 2005.
  15. Haugerud, GSA Today, 13, 4 (2003)
  16. Hodgson, Remote Sensing of Environment, 84, 295 (2003)
  17. Bulletin of the International Association of Engineering Geology, 41, 13 (1990)
  18. IWONL. 1987. Text Clarifying the Belgian Soil Map, Map Sheet 98E Ronse (in Dutch). Uitgegeven onder de auspiciën van het Instituut tot aanmoediging van het Wetenschappelijk onderzoek in Nijverheid en Landbouw: Brussels.
  19. , , . 1999. Text Clarifying the Belgian Geological Map, Flemish Region, Map Sheet 29 Kortrijk, Map Scale 1/50 000 (in Dutch). Ministerie van Economische zaken en Ministerie van de Vlaamse Gemeenschap: Brussels.
  20. . 1996. Surface observation and geologic mapping. In Landslides, Investigation and Mitigation, Transportation Research Board, (eds). National Research Council, Special Report 247. National Academy Press: Washington, DC; 128– 230.
  21. McKean, Geomorphology, 47, 331 (2004)
  22. Metternicht, Remote Sensing of Environment, 98, 284 (2005)
  23. NGI (National Geographical Institute), 1972. Topographical map of Belgium (1:10 000). Sheets 29/3-4-7-8 and 30/1-2-5-6. National Geographical Institute: Brussels.
  24. Ost, Zeitschrift für Geomorphologie, 47, 329 (2003)
  25. Rowlands, Quarterly Journal of Engineering Geology and Hydrogeology, 36, 155 (2003)
  26. 2004. Landslides mapped using LIDAR imagery, Seattle, Washington. United States Geological Survey, Open File Report 2004–1396.
  27. . 1996. Principles of landslide hazard reduction. In Landslides Investigation and Mitigation, (eds). National Research Council, Special Report 247. National Academy Press: Washington, DC; 91– 103.
  28. Thoma, Remote Sensing of Environment, 95, 493 (2005)
  29. Vanacker Veerle, Vanderschaeghe Michiel, Govers Gerard, Willems Edith, Poesen Jean, Deckers Jozef, De Bievre Bert, Linking hydrological, infinite slope stability and land-use change models through GIS for assessing the impact of deforestation on slope stability in high Andean watersheds, 10.1016/s0169-555x(02)00263-5
  30. Van Den Eeckhaut, Geomorphology, 67, 351 (2005)
  31. 1980. Landslides as a morphogenetic phenomenon in a hilly region of Flanders (Belgium). In Assessment of Erosion, (eds). John Wiley and Sons: Chichester; 475– 484.
  32. 1995. Detailed geomorphological mapping as a scientific investigation method, a case study: the maps ‘Geraardsbergen’ and ‘Kortrijk’. PhD thesis, Faculty for Sciences, V.U.B., Brussels.
  33. van Westen, Natural Hazards, 20, 137 (1999)
  34. White, Remote Sensing of Environment, 85, 39 (2003)
  35. Wills, Environmental and Engineering Geoscience, 8, 279 (2002)
  36. Zêzere, Natural Hazards and Earth System Sciences, 2, 73 (2002)
Bibliographic reference Van den Eeckhout, Miet ; Poesen, J. ; Verstraeten, G. ; Vanacker, Veerle ; Moeyersons, J ; et. al. Use of LIDAR-derived images for mapping old landslides under forest. In: Earth Surface Processes and Landforms, Vol. 32, p. 754-769 (2007)
Permanent URL http://hdl.handle.net/2078.1/71740