Teide Volcano pp 105-128 | Cite as

Volcanic History and Stratigraphy of the Teide Volcanic Complex

  • Juan Carlos Carracedo
  • Hervé Guillou
  • Francisco J. Perez-Torrado
  • Eduardo Rodríguez-Badiola
Chapter
Part of the Active Volcanoes of the World book series (AVOLCAN)

Abstract

The Teide Volcanic Complex, comprising the Teide and Pico Viejo stratocones and the recent eruptives of the Northwest and Northeast rift zones, are a product of the latest eruptive cycle of the island of Tenerife. This cycle commenced with the lateral collapse of the island?s northern flank to form part of the Las Cañadas Caldera and the Icod Valley some 200 ka ago. A large set of recently obtained ages allows the precise reconstruction of the eruptive and structural evolution of this volcanic complex, aided by geological mapping and the establishment of an internally consistent chronostratigraphy. Abundant radiometric ages (K/Ar and 40Ar/39Ar), obtained not only from the older (shield stage) formations but also from the youngest Teide Volcanic Complex, have allowed, for the first time, a view of the island as an integrated temporal system, with Teide volcano at the culmination of the island?s several million year-long geological history.

Keywords

Rift Zone Lava Dome Central Volcano Debris Avalanche Deposit Caldera Wall 
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. Ablay GJ, Martí J (2000) Stratigraphy, structure and volcanic evolution of the Pico Teide-Pico Viejo formation, Tenerife, Canary Islands. J Volcanol Geotherm Res 103:175?208CrossRefGoogle Scholar
  2. Ablay GJ, Ernst GGJ, Marti J, Sparks RSJ (1995) The ~2 ka subplinian eruption of Montaña Blanca, Tenerife. Bull Volcanol 57:337?355Google Scholar
  3. Ablay GJ, Carroll MR, Palmer MR, Martí J, Sparks RSJ (1998) Basanite-Phonolite lineages of the Teide-Pico Viejo volcanic complex, Tenerife, Canary Islands. J Petrol 39:905?936CrossRefGoogle Scholar
  4. Ancochea E, Huertas MJ, Cantagrel JM, Coello J, Fúster JM, Arnaud N, Ibarrola E (1999) Evolution of the Canadas edifice and its implications for the origin of the Canadas Caldera (Tenerife, Canary Islands). J Volcanol Geotherm Res 88:177?199CrossRefGoogle Scholar
  5. Araña V, Martí J, Aparicio A, García-Cacho L, García-García R (1994) Magma mixing in alkaline magmas: an example from Tenerife, Canary Islands. Lithos 32:119CrossRefGoogle Scholar
  6. Araña V, Felpeto A, Astiz M, García A, Ortiz R, Abella R (2000) Zonation of the main volcanic hazards (lava flows and ash fall) in Tenerife, Canary islands. A proposal for a surveillance network. J Volcanol Geotherm Res 103:377?391CrossRefGoogle Scholar
  7. Cantagrel JM, Arnaud NO, Ancochea E, Fúster JM, Huertas MJ (1999) Repeated debris avalanches on Tenerife and genesis of Las Canadas caldera wall (Canary Islands). Geology 27:739?742CrossRefGoogle Scholar
  8. Carracedo JC, Paterne M, Guillou H, Pérez Torrado FJ, Paris R, Rodríguez Badiola E, Hansen A (2003) Dataciones radiométricas (C14 y K-Ar) del Teide y el Rift NO, Tenerife, Islas Canarias. Estud Geol 59:15?29Google Scholar
  9. Carracedo JC, Rodríguez Badiola E, Guillou H, Paterne M, Scaillet S, Pérez Torrado FJ, Paris R, Fra-Paleo U, Hansen A (2007) Eruptive and structural history of Teide Volcano and Rift Zones of Tenerife, Canary Islands. Geol Soc Am Bull 119:1027?1051CrossRefGoogle Scholar
  10. Carracedo JC, Guillou H, Nomade S, Rodriguez-Badiola E, Pérez-Torrado FJ, Rodriguez-Gonzalez A, Paris R, Troll VR, Wiesmaier S, Delcamp A, Fernandez-Turiel JL (2011) Evolution of ocean-island rifts: the northeast rift zone of Tenerife, Canary Islands. Geol Soc Am Bull 123:562?584CrossRefGoogle Scholar
  11. Davidson J, De Silva S (2000) Composite volcanoes. In: Sidgurdsson H (ed) Encyclopedia of volcanoes. Academic, San Diego, pp 663?681Google Scholar
  12. Delcamp A, Petronis MS, Troll VR, Carracedo JC, de Vries BvW, Pérez-Torrado FJ (2010) Vertical axis rotation of the upper portions of the north-east rift of Tenerife Island inferred from paleomagnetic data. Tectonophysics 492:40?59CrossRefGoogle Scholar
  13. Farrujia I, Braojos JJ, Fernández J (2001) Ejecución de dos sondeos profundos en Las Cañadas del Teide. In: VII Simposio de Hidrogeología, Murcia, pp 661?671Google Scholar
  14. Huertas MJ, Arnaud NO, Ancochea E, Cantagrel JM, Fúster JM (2002) Ar-40/Ar-39 stratigraphy of pyroclastic units from the Canadas Volcanic Edifice (Tenerife, Canary Islands) and their bearing on the structural evolution. J Volcanol Geotherm Res 115:351?365CrossRefGoogle Scholar
  15. Longpré M-A, Troll VR, Walter TR, Hansteen TH (2009) Volcanic and geochemical evolution of the Teno massif, Tenerife, Canary Islands: Some repercussions of giant landslides on ocean island magmatism. Geochem Geophys Geosyst 10:Q12017. doi: 10.1029/2009gc002892 CrossRefGoogle Scholar
  16. Manconi A, Longpré M-A, Walter TR, Troll VR, Hansteen TH (2009) The effects of flank collapses on volcano plumbing systems. Geology 37:1099?1102CrossRefGoogle Scholar
  17. Márquez A, López I, Herrera R, Martín-González F, Izquierdo T, Carreño F (2008) Spreading and potential instability of Teide volcano, Tenerife, Canary Islands. Geophys Res Lett 35:L05305. doi: 10.1029/2007GL032625 CrossRefGoogle Scholar
  18. Martí J, Mitjavila J, Araña V (1994) Stratigraphy, structure and geochronology of the Las Cañadas caldera (Tenerife, Canary Islands). Geol Mag 131:715?727CrossRefGoogle Scholar
  19. Mitjavila J (1990) Aplicación de técnicas de geoquímica isotópica y de geocronología al estudio vulcanológico del edificio de Diego Hernández y su relación con la Caldera de Las Cañadas (Tenerife). Ph. D. Thesis, Universidad de Barcelona, BarcelonaGoogle Scholar
  20. Mitjavila JM, Villa IM (1993) Temporal evolution of Diego Hernández formation (Las Cañadas, Tenerife) and confirmation of the age of the caldera using the 40Ar/39Ar method. Revista e la Sociedad Geológica de España 6(1?2):61?65Google Scholar
  21. Navarro JM (1980) Plano geológico del complejo Teide-Pico Viejo (Islas Canarias, Excursión 121 A + C6, 26 Congreso Geológico Internacional, París). Bol Geol Minero 91:351?390Google Scholar
  22. Navarro Latorre JM, Coello J (1989) Depressions originated by landslide processes in Tenerife. In: ESF Meeting on Canarian Volcanism, Lanzarote, 1989. European Science Foundation, Strasbourg, pp 150?52Google Scholar
  23. Pérez Torrado FJ, Carracedo JC, Paris R, Hansen A (2004) Descubrimiento de depósitos freatomagmáticos en las laderas septentrionales del estratovolcán Teide (Tenerife, Islas Canarias): relaciones estratigráficas e implicaciones volcánicas. Geotemas 6:163?166Google Scholar
  24. Pérez Torrado FJ, Carracedo JC, Paris R, Rodríguez Badiola E, Hansen A (2006) Erupciones freatomagmáticas del complejo volcánico Teide-Pico Viejo. In: Carracedo JC (ed) Los Volcanes del Parque Nacional del Teide. Serie Técnica. Organismo Autónomo Parques Nacionales, Ministerio de Medio Ambiente, Madrid, pp 345?357Google Scholar
  25. Rodríguez Badiola E, Pérez Torrado FJ, Carracedo JC, Guillou H (2006) Petrografía y Geoquímica del edificio volcánico Teide-Pico Viejo y las dorsales noreste y noroeste de Tenerife. In: Carracedo JC (ed) Los volcanes del Parque Nacional del Teide/El Teide, Pico Viejo y las dorsales activas de Tenerife. Naturaleza y Parques Nacionales-Serie Técnica. Organismo Autónomo Parques Nacionales Ministerio de Medio Ambiente, Madrid, pp 129?186Google Scholar
  26. Steiger RH, Jager E (1977) Subcommission on geochronology?convention on use of decay constants in geochronology and cosmochronology. Earth Planet Sci Lett 36:359?362CrossRefGoogle Scholar
  27. Valentin A, Albert Beltrán JF, Diez JL (1990) Geochemical and geothermal constraints on magma bodies associated with historic activity, Tenerife (Canary-Islands). J Volcanol Geotherm Res 44:251?264CrossRefGoogle Scholar
  28. Walter TR, Troll VR, Cailleau B, Belousov A, Schmincke H-U, Amelung F, Pvd Bogaard (2005) Rift zone reorganization through flank instability in ocean island volcanoes: an example from Tenerife. Canary Islands. Bull Volcanol 67(4):281?291CrossRefGoogle Scholar
  29. Watts AB, Masson DG (1995) A giant landslide on the northflank of Tenerife, Canary Islands. J Geophys Res 100:24487?24498CrossRefGoogle Scholar
  30. Wiesmaier S, Deegan F, Troll V, Carracedo J, Chadwick J, Chew D (2011) Magma mixing in the 1100 AD Montaña Reventada composite lava flow, Tenerife, Canary Islands: interaction between rift zone and central volcano plumbing systems. Contrib Mineral Petrol 162:651?669CrossRefGoogle Scholar

Copyright information

© Springer-Verlag Berlin Heidelberg 2013

Authors and Affiliations

  • Juan Carlos Carracedo
    • 1
  • Hervé Guillou
    • 2
  • Francisco J. Perez-Torrado
    • 1
  • Eduardo Rodríguez-Badiola
    • 3
  1. 1.Departamento de Física (GEOVOL)Universidad de Las Palmas de Gran CanariaCanary IslandsSpain
  2. 2.Laboratoire des Sciences du Climat et de l’EnvironnementCCEA-CNRSGif-sur-IvetteFrance
  3. 3.Museo Nacional de Ciencias NaturalesCSICMadridSpain

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