Dynamic subsurface changes on El Hierro and La Palma during volcanic unrest revealed by temporal variations in seismic anisotropy patterns

David Schlaphorst; Graça Silveira; Graça Silveira; Ricardo S. Ramalho; Ricardo S. Ramalho; Ricardo S. Ramalho; Pablo J. González; Resurrección Antón

doi:10.3389/feart.2023.1299338

Frontiers in Earth Science (Jan 2024)

Dynamic subsurface changes on El Hierro and La Palma during volcanic unrest revealed by temporal variations in seismic anisotropy patterns

David Schlaphorst,
Graça Silveira,
Graça Silveira,
Ricardo S. Ramalho,
Ricardo S. Ramalho,
Ricardo S. Ramalho,
Pablo J. González,
Resurrección Antón

Affiliations

David Schlaphorst: Instituto Dom Luiz (IDL), Faculdade de Ciências, Universidade de Lisboa, Lisboa, Portugal
Graça Silveira: Instituto Dom Luiz (IDL), Faculdade de Ciências, Universidade de Lisboa, Lisboa, Portugal
Graça Silveira: Instituto Superior de Engenharia de Lisboa, Lisboa, Portugal
Ricardo S. Ramalho: Instituto Superior de Engenharia de Lisboa, Lisboa, Portugal
Ricardo S. Ramalho: School of Earth and Environmental Sciences, Cardiff University, Cardiff, United Kingdom
Ricardo S. Ramalho: Lamont-Doherty Earth Observatory, Columbia University, Palisades, NY, United States
Pablo J. González: Volcanology Research Group, Department of Life and Earth Sciences, Instituto de Productos Naturales y Agrobiología (IPNA-CSIC), La Laguna, Spain
Resurrección Antón: Instituto Geográfico Nacional, Madrid, Spain

DOI: https://doi.org/10.3389/feart.2023.1299338
Journal volume & issue: Vol. 11

Abstract

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Active hotspot volcanism is the surface expression of ongoing dynamic subsurface changes, such as the generation, transport, and stalling of magmas within the upper mantle and crust. Magmatic influx and migration affects local stress patterns in the crust and lithospheric mantle, which influences seismic anisotropy. A better understanding of those patterns helps improve robustness of models forecasting the likelihood of an eruption and prolonged seismicity, with detailed studies being required to observe the significant variations that can occur on small spatial and temporal scales. Here, we investigate seismic anisotropy before, during and after volcanic eruptions. We use local seismicity around El Hierro and La Palma, the two westernmost islands in the Canaries and sites of the most recent volcanic eruptions in the archipelago. We obtained 215 results in El Hierro during and after the 2011/2012 eruption with five three-component broadband seismic stations and 908 results around the 2021 eruption in La Palma with two three-component broadband stations. On La Palma, the majority of seismicity and splitting results are recorded during the eruption and simultaneous deflation of the island. Seismicity locations do not change significantly and fast shear wave polarisation direction is mostly constant, but some variation can be attributed to changes in the magmatic plumbing system. On El Hierro, the general radial pattern reflects stresses induced by the overall uplift of the island during multiple magma intrusion events. Temporal subsets reveal significant variations in location and depth of the events, as well as significant variations in fast polarisation direction caused by ongoing dynamic changes of under- and overpressurisation. An increase of results starting in 2018 hints towards renewed subsurface activity within deeper parts of the plumbing system, affecting the rate of overall seismicity but not any vertical movement of the island.

Published in Frontiers in Earth Science

ISSN: 2296-6463 (Online)
Publisher: Frontiers Media S.A.
Country of publisher: Switzerland
LCC subjects: Science
Website: https://www.frontiersin.org/journals/earth-science

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