Nature Communications (Jun 2023)

Lava dome cycles reveal rise and fall of magma column at Popocatépetl volcano

  • Sébastien Valade,
  • Diego Coppola,
  • Robin Campion,
  • Andreas Ley,
  • Thomas Boulesteix,
  • Noémie Taquet,
  • Denis Legrand,
  • Marco Laiolo,
  • Thomas R. Walter,
  • Servando De la Cruz-Reyna

DOI
https://doi.org/10.1038/s41467-023-38386-9
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 13

Abstract

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Abstract Lava domes exhibit highly unpredictable and hazardous behavior, which is why imaging their morphological evolution to decipher the underlying governing mechanisms remains a major challenge. Using high-resolution satellite radar imagery enhanced with deep-learning, we image the repetitive dome construction-subsidence cycles at Popocatépetl volcano (Mexico) with very high temporal and spatial resolution. We show that these cycles resemble gas-driven rise and fall of the upper magma column, where buoyant bubble-rich magma is extruded from the conduit (in ~hours-days), and successively drained back (in ~days-months) as magma degasses and crystallizes. These cycles are superimposed on a progressive decadal crater deepening, accompanied by heat and gas flux decrease, which could be partially explained by gas depletion within the magma plumbing system. Results reinforce the idea that gas retention and escape from the magma column play a key role in the short- and long-term morphological evolution of low-viscosity lava domes and their associated hazards.