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Application of data assimilation methods to reconstruct the 3-5 December 2015 Etna eruption.
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  • Beatriz Martínez Montesinos,
  • Leonardo Mingari,
  • Emanuele Caruso,
  • Matthieu Poret,
  • Nicola Mari,
  • Arnau Folch,
  • Daniele Taje,
  • Antonio Costa
Beatriz Martínez Montesinos
Istituto Nazionale di Geofisica e Vulcanologia Sezione di Bologna

Corresponding Author:[email protected]

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Leonardo Mingari
Geosciences Barcelona
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Emanuele Caruso
University of Bari
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Matthieu Poret
Istitutio Nazionale di Geofisica e Vulcanologia
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Nicola Mari
University of Pavia
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Arnau Folch
Geosciences Barcelona
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Daniele Taje
Universita degli Studi di Bologna
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Antonio Costa
Istituto Nazionale di Geofisica e Vulcanologia
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Abstract

The assessment of volcanic hazards is crucial to develop effective emergency plans, especially for volcanoes close to urban centers or under air traffic routes. Impact assessment relies on underlying numerical codes that require eruptive source parameters as input and forecasts drastically depend on their robust reconstruction during ongoing events. We apply a novel deposit inversion workflow built on ensemble methods and data assimilation techniques to reconstruct the explosive events that occurred at Mt Etna, Italy, between 3 and 5 December 2015. Based on results from previous studies, we reconstruct this eruption using the Gaussian with Non-negative Constraints data assimilation method. Results agree well with independent observations and highlight the potential for automatized procedures in volcanic hazard assessment.
07 Sep 2024Submitted to ESS Open Archive
12 Sep 2024Published in ESS Open Archive