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Contrasting origin of two clay-rich debris flows at Cayambe Volcanic Complex, Ecuador

Bibliographic reference Detienne, Marie ; Delmelle, Pierre ; Guevara, Alicia ; Samaniego, P ; Opfergelt, Sophie ; et. al. Contrasting origin of two clay-rich debris flows at Cayambe Volcanic Complex, Ecuador. In: Bulletin of Volcanology, , no.79:27 (2017)
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  1. Bernard B (2008) Étude des dépôts d'avalanche de débris volcaniques: analyse sédimentologique d'exemples naturels et identification des mécanismes de mise en place . Université Blaise Pascal, FranceMsc Thesis
  2. Bish DL, Post JE (1993) Quantitative mineralogical analysis using the Rietveld full-pattern fitting method. Am Mineral 78:932–940
  3. Capra L., Macı́as J.L., Pleistocene cohesive debris flows at Nevado de Toluca Volcano, central Mexico, 10.1016/s0377-0273(00)00186-4
  4. Capra L, Macı́as J.L, Scott K.M, Abrams M, Garduño-Monroy V.H, Debris avalanches and debris flows transformed from collapses in the Trans-Mexican Volcanic Belt, Mexico – behavior, and implications for hazard assessment, 10.1016/s0377-0273(01)00252-9
  5. Carrasco-Núñez Gerardo, Vallance James W., Rose William I., A voluminous avalanche-induced lahar from Citlaltépetl volcano, Mexico: Implications for hazard assessment, 10.1016/0377-0273(93)90076-4
  6. Clapperton Chalmers M., Vera Ramon, The Quaternary glacial sequence in Ecuador: a reinterpretation of the work of Walter Sauer, 10.1002/jqs.3390010106
  7. Colinvaux P.A., Olson K., Liu Kam-Biu, Late-glacial and holocene pollen diagrams from two endorheic lakes of the inte-andean plateau of ecuador, 10.1016/0034-6667(88)90055-3
  8. Crandell DR (1971) Postglacial lahars from Mount Rainier volcano, Washington. U.S. Geol Surv Prop Pap 677
  9. Crandell DR (1989) Gigantic debris avalanche of Pleistocene age from ancestral Mount Shasta volcano, California, and debris-avalanche hazard zonation. U.S. Geol Surv Bull 1861
  10. Fejdi P, Holocsy A (2001) Relationship between crystal morphology and preferred orientation in polycrystalline specimens for diffraction experiments. Mater Struct 8:22–24
  11. Finn CA, Deszcz-Pan M, Anderson ED, John DA (2007) Three-dimensional geophysical mapping of rock alteration and water content at Mount Adams, Washington: implications for lahar hazards. J Geophys Res-Sol Ea 112:B10204
  12. Folk R. L., Ward W. C., Brazos River bar [Texas]; a study in the significance of grain size parameters, 10.1306/74d70646-2b21-11d7-8648000102c1865d
  13. Julia Frolova, Vladimir Ladygin, Sergey Rychagov, David Zukhubaya, Effects of hydrothermal alterations on physical and mechanical properties of rocks in the Kuril–Kamchatka island arc, 10.1016/j.enggeo.2014.10.011
  14. Glicken H (1996) Rockslide-debris avalanche of May 18, 1980, Mount St. Helens volcano, Washington. U.S. Geol Surv Open-file Report 96–677
  15. Guillier Bertrand, Chatelain Jean-Luc, Evidence for a seismic activity mainly constituted of hybrid events at Cayambe volcano, Ecuador. Interpretation in a iced-domes volcano context, 10.1016/j.crte.2006.03.004
  16. Hall ML, Mothes PA (1996) La edad y tasas de formacion de la Cangahua. In: Simposio “Suelos Volcanicos Endurecidos”, 7–14 December 1996, Quito
  17. Henley R.W., Ellis A.J., Geothermal systems ancient and modern: a geochemical review, 10.1016/0012-8252(83)90075-2
  18. Houghton BF, Hegan BD (1980) A preliminary assessment of geological factors influencing slope stability and landslipping in and around Tauranga City. New Zealand Geological Survey Engineering Geology Report EG 348
  19. Inman DL (1952) Measures for describing the size distribution of sediments. J Sediment Petrol 22:125–145
  20. Inoue A., Formation of Clay Minerals in Hydrothermal Environments, Origin and Mineralogy of Clays (1995) ISBN:9783642081958 p.268-329, 10.1007/978-3-662-12648-6_7
  21. Iverson Richard M., Reid Mark E., LaHusen Richard G., DEBRIS-FLOW MOBILIZATION FROM LANDSLIDES, 10.1146/
  22. Iverson Richard M., Schilling Steven P., Vallance James W., Objective delineation of lahar-inundation hazard zones, 10.1130/0016-7606(1998)110<0972:odolih>;2
  23. Joussein Emmanuel, Petit Sabine, Delvaux Bruno, Behavior of halloysite clay under formamide treatment, 10.1016/j.clay.2006.07.002
  24. Pansu Marc, Gautheyrou Jacques, Handbook of Soil Analysis, ISBN:9783540312109, 10.1007/978-3-540-31211-6
  25. Quantin P (1997) Régénération et Conservation des Sols Volcaniques Indurés et Stériles d'Amérique Latine (Chili, Equateur, Mexique). European Union Report:TS3–CT930252
  26. Quantin P, Zebrowski C (1996) Analyse préliminaire (chimie, minéralogie, pétrographie) de quelques types de cangahua. Los suelos con cangahua en el Ecuador. In Memoria del III Simposio Internacional sobre Suelos Endurecidos, Quito, pp 29–47
  27. Reid Mark E., Sisson Thomas W., Brien Dianne L., Volcano collapse promoted by hydrothermal alteration and edifice shape, Mount Rainier, Washington, 10.1130/0091-7613(2001)029<0779:vcpbha>;2
  28. Robert M, Tessier D (1974) Méthode de préparation des argiles des sols pour des études minéralogiques. Ann Agron 25:859–882
  29. Rodbell Donald T., Bagnato Stefan, Nebolini Jeffrey C., Seltzer Geoffrey O., Abbott Mark B., A Late Glacial–Holocene Tephrochronology for Glacial Lakes in Southern Ecuador, 10.1006/qres.2002.2324
  30. Rye Robert O., A review of the stable-isotope geochemistry of sulfate minerals in selected igneous environments and related hydrothermal systems, 10.1016/j.chemgeo.2004.06.034
  31. Samaniego P., Monzier M., Robin C., Hall M. L., Late Holocene eruptive activity at Nevado Cayambe Volcano, Ecuador, 10.1007/s004450050203
  32. Samaniego P, Eissen JP, Monzier M, Robin C, Alvarado A, Yepes H (2004) Los peligros volcanicos asociados con el Cayambe. Corporaciòn Editora Nacional, Quito
  33. SAMANIEGO PABLO, MARTIN HERVÉ, MONZIER MICHEL, ROBIN CLAUDE, FORNARI MICHEL, EISSEN JEAN-PHILIPPE, COTTEN JOSEPH, Temporal Evolution of Magmatism in the Northern Volcanic Zone of the Andes: The Geology and Petrology of Cayambe Volcanic Complex (Ecuador), 10.1093/petrology/egi053
  34. Sánchez M. Victoria, Genise Jorge F., Bellosi Eduardo S., Román-Carrión José Luis, Cantil Liliana F., Dung beetle brood balls from Pleistocene highland palaeosols of Andean Ecuador: A reassessment of Sauer's Coprinisphaera and their palaeoenvironments, 10.1016/j.palaeo.2013.05.028
  35. Scott KM, Vallance JW (1995) Debris flow, debris avalanche, and flood hazards at and downstream from Mount Rainier, Washington. U.S. Geol Surv Hydrol Inv Atlas HA-729:1–9
  36. Scott WE, Pierson TC, Schilling SP, Costa JE, Gardner CA, Vallance JW, Major JJ (1997) Volcano hazards in the Mount Hood region, Oregon. U.S. Geol Surv Open-File Report 97–89
  37. Scott KM, Macías JL, Naranjo JA, Rodríguez S, McGeehin JP (2001) Catastrophic debris flows transformed from landslides in volcanic terrains: mobility, hazard assessment, and mitigation strategies. U.S. Geoll Surv Prof Pap 1–59
  38. Siebert Lee, Glicken Harry, Ui Tadahide, Volcanic hazards from Bezymianny- and Bandai-type eruptions, 10.1007/bf01046635
  39. Stoopes Gary R., Sheridan Michael F., Giant debris avalanches from the Colima Volcanic Complex, Mexico: Implications for long-runout landslides (>100 km) and hazard assessment, 10.1130/0091-7613(1992)020<0299:gdaftc>;2
  40. Taylor J. C., Computer Programs for Standardless Quantitative Analysis of Minerals Using the Full Powder Diffraction Profile, 10.1017/s0885715600016778
  41. Taylor J. C., Matulis C. E., Absorption contrast effects in the quantitative XRD analysis of powders by full multiphase profile refinement, 10.1107/s002188989000841x
  42. Vallance James W., Volcanic debris flows, Debris-flow Hazards and Related Phenomena ISBN:9783540207269 p.247-274, 10.1007/3-540-27129-5_10
  43. Vallance James W., Scott Kevin M., The Osceola Mudflow from Mount Rainier: Sedimentology and hazard implications of a huge clay-rich debris flow, 10.1130/0016-7606(1997)109<0143:tomfmr>;2
  44. Wesley L. D., Shear strength properties of halloysite and allophane clays in Java, Indonesia, 10.1680/geot.1977.27.2.125
  45. Winckell A, Zebrowski C (1992) Cangahua in Ecuador: the paleogeographic context of its formation. Terrain 10:107–112
  46. Wyatt J (2009) Sensitivity and clay mineralogy of weathered tephra-derived soil materials in the Tauranga region . University of Waikato, New ZealandMsc Thesis
  47. Zehetner F., Miller W. P., West L. T., Pedogenesis of Volcanic Ash Soils in Andean Ecuador, 10.2136/sssaj2003.1797
  48. Zimbelman D. R., Watters R. J., Firth I. R., Breit G. N., Carrasco-Nunez G., Stratovolcano stability assessment methods and results from Citlalt�petl, Mexico, 10.1007/s00445-003-0296-8
  49. Zimbelman D.R., Rye R.O., Breit G.N., Origin of secondary sulfate minerals on active andesitic stratovolcanoes, 10.1016/j.chemgeo.2004.06.056