Please use this identifier to cite or link to this item: http://hdl.handle.net/10553/120632
Title: Deep magma storage during the 2021 La Palma eruption
Authors: Dayton, Kyle
Gazel, Esteban
Wieser, Penny
Troll, Valentin R.
Carracedo Gomez,Juan Carlos 
Madrid, Hector La
Roman, Diana C.
Ward, Jamison
Aulinas, Meritxell
Geiger, Harri
Deegan, Frances M.
Gisbert, Guillem
Pérez Torrado, Francisco José 
UNESCO Clasification: 250621 Vulcanología
Issue Date: 2023
Project: Geocronología y petrogénesis del volcanismo Holoceno de El Hierro, Islas Canarias 
Monitorización, Evaluacióny Seguimiento Multidisciplinar de la Erupción Volcánica en la Palma (Mesvol) 
Journal: Science advances 
Abstract: The 2021 La Palma eruption provided an unpreceded opportunity to test the relationship between earthquake hypocenters and the location of magma reservoirs. We performed density measurements on CO2-rich fluid inclusions (FIs) hosted in olivine crystals that are highly sensitive to pressure via calibrated Raman spectroscopy. This technique can revolutionize our knowledge of magma storage and transport during an ongoing eruption, given that it can produce precise magma storage depth constraints in near real time with minimal sample preparation. Our FIs have CO2 recorded densities from 0.73 to 0.98 g/cm3, translating into depths of 15 to 27 km, which falls within the reported deep seismic zone recording the main melt storage reservoir.
URI: http://hdl.handle.net/10553/120632
DOI: 10.1126/sciadv.ade7641
Source: Science Advances [EISSN 2375-2548], v. 9 (6), (Febrero 2023)
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