4.3 Article

Formation of Oskjuvatn caldera at Askja, North Iceland: Mechanism of caldera collapse and implications for the lateral flow hypothesis

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出版社

ELSEVIER SCIENCE BV
DOI: 10.1016/j.jvolgeores.2012.02.009

关键词

Askja; Caldera formation; Caldera volume; Lateral flow; Deflation

资金

  1. NERC [NE/F008929/1]

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The Oskjuvatn caldera at Askja volcano, North Iceland, was formed as a result of an explosive eruption at Askja on 28th-29th March 1875. Oskjuvatn is one of the youngest collapse calderas on Earth, and its initiation and growth were observed and documented by explorers and geologists working in the Askja region between 1875 and 1932. It is an example of caldera formation where the volume of the caldera collapse far exceeds the volume of associated erupted products. The discrepancy between the collapse volume and associated erupted products has been used by previous workers as a justification for the hypothesis that the injection of lateral dykes from Askja fed the February to October 1875 Nyjahraun fissure eruptions at the Sveinagja graben, some 60 km north of Askja. However, historical accounts documenting the caldera formation in sufficient detail show clearly that Oskjuvatn formed by piecemeal collapse, taking over 40 years to reach its current form. We use these accounts to undertake a detailed examination of the stages of caldera collapse and to compare them with the known magmatic output of Askja in the years following the 1875 eruption. ArcGIS software was used to calculate the volume of Oskjuvatn during the various stages of collapse, and the volume of material erupted after 1875. While a dyke extending between Askja and Sveinagja may be implied to account for the 'missing' volume, our results demonstrate that the volume of Oskjuvatn in July 1875 closely corresponds to the volume of rhyolitic material erupted on 28th-29th March 1875. In addition, geochemical evidence indicates that the Nyjahraun magmas were sourced from a deeper reservoir rather than by lateral injection from Askja's shallow crustal magma chamber. We therefore suggest that the injection of sills and dykes in a coherent intrusion complex beneath Askja central volcano, combined with background deflation of the magma storage zone beneath Oskjuvatn caldera over 30 to 40 years following 1875, satisfactorily accommodates the volume required to form Oskjuvatn caldera. Crown Copyright (C) 2012 Published by Elsevier B.V. All rights reserved.

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