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Discrete magma injections drive the 2021 La Palma eruption

Teresa Ubide, Álvaro Márquez, Eumenio Ancochea Soto, María José Huertas, Raquel Herrera, Juan Jesús Coello Bravo, David Sanz Mangas, Jacob A. Mulder, Alice MacDonald, Inés Galindo

2023Science Advances48 citationsDOIOpen Access PDF

Abstract

Understanding the drivers of the onset, evolution, and end of eruptions and their impact on eruption style is critical in eruption forecasting and emergency management. The composition of erupted liquids is a key piece of the volcano puzzle, but untangling subtle melt variations remains an analytical challenge. Here, we apply rapid, high-resolution matrix geochemical analysis on samples of known eruption date spanning the entire 2021 La Palma eruption. Sr isotope signatures reveal distinct pulses of basanite melt driving the onset, restart, and evolution of the eruption. Elemental variations in matrix and microcrysts track progressive invasion, and draining, of a subcrustal crystal mush. Associated variations in lava flow rate, vent development, seismicity, and SO 2 emission demonstrate that volcanic matrix resolves eruption patterns that could be expected in future basaltic eruptions globally.

Topics & Concepts

LavaEffusive eruptionVolcanoGeologyLateral eruptionVulcanian eruptionPeléan eruptionMagmaBasaltDense-rock equivalentGeochemistrySeismologyVolcanologyXenolithPetrologyEarth scienceExplosive eruptionGeological and Geochemical Analysisearthquake and tectonic studiesHigh-pressure geophysics and materials
Discrete magma injections drive the 2021 La Palma eruption | Litcius