SEARCH

SEARCH BY CITATION

References

  • Anderson, S. P., W.Dietrich, D.Montgomery, R.Torres, M.Conrad, and K.Loague (1997), Subsurface flow paths in a steep, unchanneled catchment, Water Resour. Res., 33(12), 26372653, doi:10.1029/97WR02595.
  • Berner, C. (2004), Der Bergsturz von Goldau. Geologie, Ausbreitung und Dynamik des grössten historischen Bergsturzes der Schweiz, MS thesis, Dep. of Earth Sci., ETHZ, Zurich, Switzerland.
  • Berwert-Lopes, J., and F.Spichtig (2006), Unwetter 22/23 August 2005, Ereignisdokumentation, Tech. Rep. 16, Amt für Wald und Raumentwicklung Obwalden, Sarnen, Switzerland, January.
  • Beven, K., and P.Germann (1982), Macropores and water flow in soils, Water Resour. Res., 18, 13111325, doi:10.1029/WR018i005p01311.
  • Bezzola, G. R., and C.Hegg (2007), Ereignisanalyse Hochwasser 2005, Teil 1-Prozesse, Schäden und erste Einordnung, Tech. Rep. Umwelt-Wissen 0707, Bundesamt für Umwelt BAFU, Bern, Switzerland, Eidgenössische Forschungsanstalt WSL, Birmensdorf, Switzerland.
  • Bonzanigo, E., E.Eberhardt, and S.Loew (2001), Hydromechanical factors controlling the creeping Campo Vallemaggia landslide, paper presented at UEF International Conference on Landslides—Causes, Impacts and Countermeasures, Davos, Verl. Glückauf GmbH, Essen, Germany.
  • Brammer, D. D., and J.McDonnell (1996), An evolving perceptual model of hillslope flow at the Miami catchment, Adv. Hillslope Processes, 1, 3560.
  • Calcaterra, D., and A.Santo (2004), The January 10, 1997 Pozzano landslide, Sorrento Peninsula, Italy, Eng. Geol., 75, 181200, doi:10.1016/j.enggeo.2004.05.009.
  • Crosta, G. (1998), Regionalization of rainfall thresholds: An aid to landslide evaluation, Environ. Geol., 35(2–3), 131145.
  • Daily, W., A.Ramirez, D.LaBrecque, and J.Nitao (1992) Electrical resistivity tomography of vadose water movement, Water Resour. Res., 28(5), 14291442, doi:10.1029/91WR03087.
  • Debieche, T.-H., T. A.Bogaard, V.Marc, C.Emblanch, D. M.Krzeminska, and J.-P.Malet (2011), Hydrological and hydrochemical processes observed during a large-scale infiltration experiment at Super-Sauze mudslide (France), Hydrol. Processes, 26, 21572170, doi:10.1002/hyp.7843.
  • Ebel, B. A., K.Loague, J. E.Vanderkwaak, W. E.Dietrich, D. R.Montgomery, R.Torres, and S. P.Anderson (2007), Near-surface hydrologic response for a steep unchanneled catchment near Coos Bay, Oregon: 2. Physics-based simulations, Am. J. Sci., 307, 709748, doi:10.2475/04.2007.03.
  • Eckelmann, W., H.Sponagel, W.Grottenthaler, and J.-K.Hartmann (2005), Bodenkundliche Kartieranleitung. 5. verbesserte und erweiterte Auflage, Tech. Rep., Bundesanst. für Geowissenschaften und Rohstoffe und Niedersächsisches Landesamt für Bodenforschung, Hannover, Germany.
  • Everett, A. G. (1979), Secondary permeability as a possible factor in the origin of debris avalanches associated with heavy rainfall, J. Hydrol., 43, 347354.
  • Food and Agriculture Organization (1988), FAO/Unesco Soil Map of the World, Revised Legend, with corrections, World Soil Resour. Rep., 60, Rome.
  • Flury, M., and H.Flühler (1994), Brilliant Blue FCF as a dye tracer for solute transport studies—A toxicological overview, J. Environ. Qual., 23(5), 11081112.
  • Fratta, D., J.Aguettant, and L.Roussel-Smith (2007), Introduction to Soil Mechanics Laboratory Testing, CRC Press, London.
  • Haught, D. R. W., and H. J.Tromp-van Meerveld (2011), Spatial variation in transient water table responses: Differences between an upper and lower hillslope zone, Hydrol. Processes, 25(25), 38663877.
  • Iverson, R. M. (2000), Landslide triggering by rain infiltration, Water Resour. Res., 36(7), 18971910.
  • Iverson, R. M., and J.Major (1986), Groundwater seepage vectors and the potential for hillslope failure and debris flow mobilization, Water Resour. Res., 22(11), 15431548.
  • Johnson, K. A., and N.Sitar (1990), Hydrologic conditons leading to debris-flow initiation, Can. Geotech. J., 27, 789801.
  • Katsura, S., K.Kosugi, T.Mizutani, S.Okunaka, and T.Mizuyama (2008), Effects of bedrock groundwater on spatial and temporal variations in soil mantle groundwater in a steep granitic headwater catchment, Water Resour. Res., 44, W09430, doi:10.1029/2007WR006610.
  • Kosugi, K., S.Katsura, M.Katsuyama, and T.Mizuyama (2006), Water flow processes in weathered granitic bedrock and their effects on runoff generation in a small headwater catchment, Water Resour. Res., 42, W02414, doi:10.1029/2005WR004275.
  • Kosugi, K., S.Katsura, T.Mizuyama, S.Okunaka, and T.Mizutani (2008), Anomalous behavior of soil mantle groundwater demonstrates the major effects of bedrock groundwater on surface hydrological processes, Water Resour. Res., 44, W01407, doi:10.1029/2006WR005859.
  • Lambe, W. T., and R.Whitman (1979), Soil Mechanics, SI Version, John Wiley, New York.
  • Laudon, H., and O.Slaymaker (1997), Hydrograph separation using isotopes, silicia and electrical conductivity: An alpine example, J. Hydrol., 201(1–4), 82101.
  • Liniger, M. (2006), Die Herausforderung der Gefahrenprognose bei Massenbewegungen: Rutsch und Sturzprozesse, Bull. Angew. Geol., 22(2), 7588.
  • Loke, M. H. (2013), Tutorial: 2-D and 3-D electrical imaging surveys, Geotomo Software, Malaysia.
  • Maries, G. (2011), Strength and geophysical profiling of a study site at Rufiberg, Canton Schwyz, CH, MS thesis, Inst. for Geotech. Eng., ETHZ, Zurich, Switzerland.
  • Mathewson, C. C., J.Keaton, and P.Santi (1990), Role of bedrock ground water in the initiation of debris flows and sustained post-flow stream discharge, Bull. Assoc. Eng. Geol., 27(1), 7383.
  • Matsushi, Y., and Y.Matsukura (2007), Rainfall thresholds for shallow landsliding derived from pressure-head monitoring: Cases with permeable and impermeable bedrocks in Boso Peninsula, Japan, Earth Surf. Processes Landforms, 32, 13081322, doi:10.1002/esp.1491.
  • McDonnell, J. J. (2003), Where does water go when it rains? Moving beyond the variable source area concept of rainfall-runoff response, Hydrol. Processes, 17, 18691875, doi:10.1002/hyp.5132.
  • Montgomery, D. R., W.Dietrich, and J.Heffner (2002), Piezometric response in shallow bedrock at CB1: Implications for runoff generation and landsliding, Water Resour. Res., 38(12), 1274, doi:10.1029/2002WR001429.
  • Montgomery, D. R., W.Dietrich, R.Torres, S.Anderson, J.Heffner, and K.Loague (1997), Hydrologic response of a steep, unchanneled valley to natural and applied rainfall, Water Resour. Res., 33(1), 91109.
  • Montgomery, D. R., K. M.Schmidt, W. E.Dietrich, and J.McKean (2009), Instrumental record of debris flow initiation during natural rainfall: Implications for modeling slope stability, J. Geophys. Res., 114, F01031, doi:10.1029/2008JF001078.
  • Onda, Y., Y.Komatsu, M.Tsujimura, and J.-i.Fujihara (2001), The role of subsurface runoff through bedrock on storm flow generation, Hydrol. Processes, 15, 16931706, doi:10.1002/hyp.234.
  • Onda, Y., M.Tsujimura, and H.Tabuchi (2004), The role of subsurface water flow paths on hillslope hydrological processes, landslides and landform development in steep mountains of Japan, Hydrol. Processes, 18, 637650, doi:10.1002/hyp.1362.
  • Oosterbaan, R. J., and H. J.Nijland (1994), Determining the saturated hydraulic conductivity, in Drainage Principles and Applications, edited by H. P.Ritzema, Chap. 12, Publication 16, revised edition, Int. Ins. for Land Reclam. and Impr., Wageningen, Netherlands.
  • Palacky, G.J. (1987), Resistivity characteristics of geological targets, in Electromagnetic Methods in Applied Geophysics Theory, SEG Invest. in Geophys. Series 3, vol. 1, edited by M. N.Nabighian, pp. 53129, Soc. Explor. Geophys., Tulsa, Okla.
  • Rickli, C., H.Raetzo, B.McArdell, and J.Presler (2008), Hanginstabilitäten, in Ereignisanalyse Hochwasser 2005 Teil 2—Analyse von Prozessen, Massnahmen und Gefahrengrundlagen, edited by G. R.Bezzola, and C.Hegg, pp. 84, Bundesamt für Umwelt BAFU, Bern und der Eidgenössischen Forschungsanstalt für Wald, Schnee und Landschaft WSL, Birmensdorf, Switzerland.
  • Schmid, F., M.Fraefel, and C.Hegg (2004), Unwetterschäden in der Schweiz 1972–2002: Verteilung, Ursachen, Entwicklung, Wasser, Energie und Luft, 1(2), 2128.
  • Schneider, P., L.Strouhal, S.Pool, and J.Seibert (2013), True colors – changing perceptions of hydrological processes at a hillslope prone to slide, Hydrol. Earth Syst. Sci. Discuss., 10, 82338277, doi:10.5194/hessd-10-8233-2013.
  • Springman, S. M., A.Askarinejad, F.Casini, S.Friedel, P.Kienzler, P.Teysseire, and A.Thielen (2012), Lessons learnt from field tests in some potentially unstable slopes in Switzerland, Acta Sloven. Geotech., 1, 529.
  • Topp, G. C., J. L.Davis, and A. P.Annan (1980), Electromagnetic determination soil water content: Measurements in coaxial transmission lines, Water Resour. Res., 16(3), 574582.
  • Tromp-van Meerveld, H. J., and M.Weiler (2008), Hillslope dynamics modeled with increasing complexity, J. Hydrol., 361(1–2), 2440, doi:10.1016/j.jhydrol.2008.07.019.
  • Uchida, T., Y.Asano, N.Ohte, and T.Mizuyama (2003), Seepage area and rate of bedrock groundwater discharge at a granitic unchanneled hillslope, Water Resour. Res., 39(1), 1018, doi:10.1029/2002WR001298.
  • Uchida, T., K.Kosugi, and T.Mizuyama (2002), Effects of pipe flow and bedrock groundwater on runoff generation in a steep headwater catchment in Ashiu, central Japan, Water Resour. Res., 38(7), 1119, doi:10.1029/2001WR000261.
  • VanAsch, T. W. J., J.Buma, and L. P. H.VanBeek (1999), A view on some hydrological triggering systems in landslides, Geomorphology, 30, 2532.
  • Wang, G. and K., Sassa (2003), Pore-pressure generation and movement of rainfall-induced landslides: Effects of grain size and fine-particle content, Eng. Geol., 69, 109125, doi:10.1016/S0013-7952(02)00268-5.
  • Weiler, M., J.McDonnell, I.Tromp-van Meerveld, and T.Uchida (2006), Subsurface stormflow, in Encyclopedia of Hydrological Sciences, edited by M. G.Anderson and J. J.McDonnell, pp. 17191732, John Wiley, New York.
  • Wilson, C. J., and W. E.Dietrich (1987), The contribution of bedrock groundwater flow to storm runoff and high pore pressure development in hollows, paper presented at the Int. Symp. on Erosion and Sedimentation in the Pacific Rim, 3–7 August 1987, Corvallis, Oreg., publ. 165, pp. 49–59, Int. Assoc. Hydrol. Sci. Bull., Wallingford, U. K.