Geomorphic expression of rapid Holocene silicic magma reservoir growth beneath Laguna del Maule, Chile

Brad S. Singer; Hélène Le Mével; Joseph M. Licciardi; Loreto Córdova; Basil Tikoff; Nicolas Garibaldi; Nathan L. Andersen; Angela K. Diefenbach; Kurt L. Feigl

doi:10.1126/sciadv.aat1513

Geomorphic expression of rapid Holocene silicic magma reservoir growth beneath Laguna del Maule, Chile

Science Advances

By: Brad S. Singer, Hélène Le Mével, Joseph M. Licciardi, Loreto Córdova, Basil Tikoff, Nicolas Garibaldi, Nathan L. Andersen, Angela K. Diefenbach, and Kurt L. Feigl

https://doi.org/10.1126/sciadv.aat1513

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Abstract

Large rhyolitic volcanoes pose a hazard, yet the processes and signals foretelling an eruption are obscure. Satellite geodesy has revealed surface inflation signaling unrest within magma reservoirs underlying a few rhyolitic volcanoes. Although seismic, electrical, and potential field methods may illuminate the current configuration and state of these reservoirs, they cannot fully address the processes by which they grow and evolve on geologic time scales. We combine measurement of a deformed paleoshore surface, isotopic dating of volcanism and surface exposure, and modeling to determine the rate of growth of a rhyolite-producing magma reservoir. The numerical approach builds on a magma intrusion model developed to explain the current, decade-long, surface inflation at >20 cm/year. Assuming that the observed 62-m uplift reflects several non-eruptive intrusions of magma, each similar to the unrest over the past decade, we find that ~13 km³ of magma recharged the reservoir at a depth of ~7 km during the Holocene, accompanied by the eruption of ~9 km³ of rhyolite. The long-term rate of magma input is consistent with reservoir freezing and pluton formation. Yet, the unique set of observations considered here implies that large reservoirs can be incubated and grow at shallow depth via episodic high-flux magma injections. These replenishment episodes likely drive rapid inflation, destabilize cooling systems, propel rhyolitic eruptions, and thus should be carefully monitored.

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Additional publication details
Publication type	Article
Publication Subtype	Journal Article
Title	Geomorphic expression of rapid Holocene silicic magma reservoir growth beneath Laguna del Maule, Chile
Series title	Science Advances
DOI	10.1126/sciadv.aat1513
Volume	4
Issue	6
Year Published	2018
Language	English
Publisher	American Association for the Advancement of Science
Contributing office(s)	Volcano Science Center
Description	eaat1513, 11 p.
Country	Chile
Other Geospatial	Laguna del Maule
Google Analytic Metrics	Metrics page