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References

  • Ancey, C. (2007), Plasticity and geophysical flows: A review, J. Non Newtonian Fluid Mech., 142, 435.
  • Angeli, M.-G., A. Pasuto, and S. Silvano (2000), A critical review of landslide monitoring experiences, Eng. Geol., 55, 133147.
  • Bièvre, G., U. Kniess, D. Jongmans, E. Pathier, S. Schwartz, C. vanWesten, T. Villemin, and V. Zumbo (2011a), Paleotopographic control of landslides in lacustrine deposits (Trièves plateau, French western Alps), Geomorphology, 125, 214224.
  • Cornforth, D. H. (2005), Landslides in Practice: Investigation, Analysis and Remedial/Preventative Options in Soils, 624 pp., Wiley, Hoboken, N. J.
  • Coussot, P. (2005), Rheometry of Pastes, Suspensions, and Granular Materials, 291 pp., Wiley, Hoboken, N. J.
  • Coussot, P. (1995), Structural similarity and transition from Newtonian to non-Newtonian behavior for clay-water suspensions, Phys. Rev. Lett., vol 74, n 20, pp 39713974
  • Coussot, P., Q. D. Nguyen, H. T. Huynh, and D. Bonn (2002), Viscosity bifurcation in thixotropic, yielding fluids, J. Rheol., 46(3), 573589.
  • Coussot, P., N. Roussel, S. Jarny., and H. Chanson (2005), Continuous or catastrophic solid-liquid transition in jammed systems, Phys. Fluids, 17, 011704.
  • Eilertsen, R. S., L. Hansen, T. H. Bargel, and I. L. Solberg (2007), Clay slides in the Målselv Valley, northern Norway: Characteristics, occurrence, and triggering mechanisms, Geomorphology, 93, 548562.
  • Huang, X., and M. H. García (1998), A Herschel-Bulkley model for mud flows down a slope, J. Fluid Mech., 374, 305333.
  • Iverson, R. M. (2005), Regulation of landslide motion by dilatancy and pore pressure feedback, J. Geophys. Res., 110, F02015, doi:10.1029/2004JF000268.
  • Iverson, R. M., M. E. Reid, and R. G. LaHusen (1997), Debris flow mobilization from landslides, Annu. Rev. Earth Planet. Sci., 25, 85138.
  • Jongmans, D. G. Bièvre, F. Renalier, S. Schwartz, N. Beaurez, and Y. Orengo (2009), Geophysical investigation of a large landslide in glacio-lacustrine clays in the Trièves area (French Alps), Eng. Geol., 109, 4556.
  • Khaldoun, A., P. Moller, A. Fall, G. Wegdam, B. De Leeuw, Y. Meheust, J. O. Fossum, and D. Bonn (2009), Quick clays and Landslides of clayey soils, Phys. Rev. Lett., 103, 188301.
  • Larose, E., P. Roux, and M. Campillo (2007), Reconstruction of Rayleigh-Lamb dispersion spectrum based on noise obtained from an air-jet forcing, J. Acoust. Soc. Am., 122(6), 34373444.
  • Mainsant, G., E. Larose, C. Brönnimann, D. Jongmans, C. Michoud, and M. Jaboyedoff (2012), Ambient seismic noise monitoring of a clay landslide: Toward failure prediction, J. Geophys. Res., 117, F01030, doi:10.1029/2011JF002159.
  • Oswald, P. (2009), Rheophysics: The Deformation and Flow of Matter, 640 pp., Cambridge Univ. Press, Cambridge, U. K.
  • Picarelli, L., G. Urciuoli, M. Ramondini, and L. Comegna (2005), Main features of mudslides in tectonised highly fissured clay shales, Landslides, 2, 1530, doi:10.1007/s10346-004-0040-2.
  • Renalier, F., G. Bièvre, D. Jongmans, M. Campillo, and P. Y. Bard (2010), Clayey landslide investigations using active and passive VS measurements, in Advances in Near-Surface Seismology and Ground-Penetrating Radar, Geophys. Dev. Ser., vol. 15, edited by R. D. Miller et al., chap. 24, pp. 397414, Soc. of Explor. Geophys., Tulsa, Okla.
  • Roussel, N., R. Le Roy, and P. Coussot (2004), Thisotropy modeling at local and macroscopic scales, J. Non Newtonian Fluid Mech., 117, 8595.
  • Van Asch, T. W. J., and J. P. Malet (2009), Flow-type failures in fine-grained soils: An important aspect in landslide hazard analysis, Nat. Hazards Earth Syst., 9, 17031711.
  • Viktorov, I. (1967), Rayleigh and Lamb Waves: Physical Theory and Applications, 154 pp., Plenum, New York.
  • Wathelet, M., D. Jongmans, and M. Ohrnberger (2004), Surface wave inversion using a direct search algorithm and its application to ambient vibration measurements, Near Surf. Geophys., 2, 211221.