Comparative field study of shallow rhyolite intrusions in Iceland: emplacement mechanisms and impact on country rocks

Shallow silicic intrusions are known to exist in many active volcanoes and can fuel both eruptions and hydrothermal fields. However, our knowledge of magma intrusions remains far from complete, and processes occurring at intrusion margins are poorly understood. In this field-based study, we characte...

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Bibliographic Details
Published in:Journal of Volcanology and Geothermal Research
Main Authors: Saubin E, Kennedy B, Tuffen H, Villeneuve M, Davidson J, Burchardt S
Format: Article in Journal/Newspaper
Language:English
Published: Elsevier BV 2019
Subjects:
Rhyolite
Intrusion
Iceland
Damage
Emplacement
Permeability
Fields of Research::37 - Earth sciences::3705 - Geology::370503 - Igneous and metamorphic petrology
Field of Research::04 - Earth Sciences::0403 - Geology::040312 - Structural Geology
Fields of Research::37 - Earth sciences::3705 - Geology::370512 - Volcanology
Dyrfjöll
Krafla
Online Access:http://hdl.handle.net/10092/17788
https://doi.org/10.1016/j.jvolgeores.2019.106691
Description
Summary:Shallow silicic intrusions are known to exist in many active volcanoes and can fuel both eruptions and hydrothermal fields. However, our knowledge of magma intrusions remains far from complete, and processes occurring at intrusion margins are poorly understood. In this field-based study, we characterise four shallows, dissected rhyolitic intrusions at three sites in Iceland (Njarðvík-Dyrfjöll, Krafla and Húsafell central volcanoes). We focus on the relationship between intrusion emplacement mechanisms and country rock response, employing scanline mapping of fractures and in-situ rock property measurements (hardness and permeability) along transects from the intrusion margins to damaged and undamaged country rocks. We identify various scenarios of shallow intrusion emplacement style, based upon their diverse geometry and lithofacies architecture. Additional information from rock properties and characteristics of fractures and vesicles, indicates that initial country rock properties strongly influence the emplacement style. We identify two discrete types of country rock response to magma injection. The matrix permeability of weak, porous and permeable lithologies (conglomerate and hyaloclastite) is reduced by >1 order of magnitude adjacent to intrusions due to pore occlusion. Stronger and denser, low-permeability lithologies (basalt and welded ignimbrite) undergo a decrease in hardness by a factor >2 related to an up to fivefold increase in fracture density, with no significant change in matrix permeability. Our observations highlight the importance of robust characterisation of the mechanical properties of caldera-filling or geothermal reservoir formations, for appropriate forecasting of magma mobility, geophysical data interpretation, and geothermal resources characterisation.

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