Discussion

  • Benni Thiebes
Chapter
Part of the Springer Theses book series (Springer Theses)

Abstract

During the monitoring campaign, small slope movements have been recorded by surface and subsurface measurements which are extremely-slow according to the definition by Cruden and Varnes (1996). In particular with regard to inclinometer Lic02, these displacements can be interpreted as a continuation of the displacement previously described by Bell (2007). In contrast to this earlier study, the research described in this thesis could employ geodetic measurements carried out by Aslan et al. (2010a) for interpretation of large scale movement trends.

Keywords

Early Warning Slope Stability Shear Surface Landslide Inventory Rainfall Threshold 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

References

  1. Aslan AM, Burghaus S, Li L, Schauerte W, Kuhlmann H (2010a) Bewegungen an der Oberfläche. In: Bell R, Pohl J, Glade T, Mayer J, Greiving S (eds) Integrative Frühwarnsysteme für gravitative Massenbewegungen (ILEWS) Monitoring, Modellierung, Implementierung. Klartext, Essen, Germany, pp 74–84Google Scholar
  2. Aslan AM, Schauerte W, Kuhlmann H (2010b) Empirisches Frühwarnmodell. In: Bell R, Pohl J, Glade T, Mayer J, Greiving S (eds) Integrative Frühwarnsysteme für gravitative Massenbewegungen (ILEWS) Monitoring, Modellierung, Implementierung. Klartext, Essen, pp 140–150Google Scholar
  3. Bell R (2007) Lokale und regionale Gefahren- und Risikoanalyse gravitativer Massenbewegungen an der Schwäbischen Alb. University of Bonn, GermanyGoogle Scholar
  4. Cruden DM, Varnes DJ (1996) Landslide types and processes. In: Turner AK, Schuster RL (eds) Landslides: Investigation and mitigation (Special Report). Washington, D.C., USA: National Research Council, Transportation and Research Board Special Report 247, Washington, D.C., USA, pp 36–75Google Scholar
  5. Jäger S, Paulsen H, Mayer C, Huber B, Dietz R, Greve K, Camek T (2010) Informationstechnik in der Frühwarnmodellierung. In: Bell R, Pohl J, Glade T, Mayer J, Greiving S (eds) Integrative Frühwarnsysteme für gravitative Massenbewegungen (ILEWS) Monitoring, Modellierung, Implementierung. Klartext, Essen, pp 155–179Google Scholar
  6. Ohmert W, Von Koenigswald W, Münzing K, Villinger E (1988) Erläuterungen zu Blatt 7521 Reutlingen (Geologische Karte 1:25.000 von Baden Württemberg). Geologisches Landesamt Baden-WürttembergGoogle Scholar
  7. Okamoto T, Larsen JO, Matsuura S, Asano S, Takeuchi Y, Grande L (2004) Displacement properties of landslide masses at the initiation of failure in quick clay deposits and the effects of meteorological and hydrological factors. Eng Geol 72(3–4):233–251CrossRefGoogle Scholar
  8. Petley DN, Higuchi T, Dunning S, Rosser NJ, Petley DJ, Bulmer MH, Carey J (2005a) A new model for the development of movement in progressive landslides. In: Hungr O, Fell R, Couture R, Eberhardt E (eds) International conference on landslide risk management. Taylor & Francis, Vancouver, pp 350–358Google Scholar
  9. Petley DN, Higuchi T, Petley DJ, Bulmer MH, Carey J (2005b) Development of progressive landslide failure in cohesive materials. Geology 33(3):201–204CrossRefGoogle Scholar
  10. Petley DN, Petley DJ, Allison RJ (2008) Temporal prediction in landslides–understanding the Saito effect. In: Chen Z, Zhang J-M, Ho K, Wu F-Q, Li Z-K (eds) Landslides and engineered slopes: from the past to the future. Taylor & Francis, Xi’an, pp 794–800Google Scholar
  11. Uchida T (2004) Clarifying the role of pipe flow on shallow landslide initiation. Hydrol Process 18(2):375–378CrossRefGoogle Scholar
  12. Wiebe H, Krummel H (2010) Bodenfeuchte (Geoelektrik). In: Bell R, Pohl J, Glade T, Mayer J, Greiving S (eds) Integrative Frühwarnsysteme für gravitative Massenbewegungen (ILEWS) Monitoring, Modellierung, Implementierung. Klartext, Essen, pp 100–116Google Scholar
  13. Wiebe H, Krummel H, Camek T, Thiebes B (2010) Kombinierte Auswertung der Bodenfeuchte. In: Bell R, Pohl J, Glade T, Mayer J, Greiving S (eds) Integrative Frühwarnsysteme für gravitative Massenbewegungen (ILEWS) Monitoring, Modellierung, Implementierung. Klartext, Essen, pp 116–129Google Scholar

Copyright information

© Springer-Verlag Berlin Heidelberg 2012

Authors and Affiliations

  • Benni Thiebes
    • 1
  1. 1.Department of Geography and Regional ResearchUniversity of ViennaViennaAustria

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