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RESEARCH PRODUCT
Ground deformation reveals the scale-invariant conduit dynamics driving explosive basaltic eruptions
Dario Delle DonneEmanuele MarchettiAlessandro AiuppaTakehiro NishimuraRiccardo GencoMaurizio RipepeF. P. La MonicaGiorgio LacannaD. MangioneDiego CoppolaMaria Cristina SilengoLorenzo InnocentiA. RicciardiMarco LaioloMarco LaioloMarcello BitettoMarco PistolesiFrancesco MassimettiM. Della SchiavaMauro Rosisubject
010504 meteorology & atmospheric sciencesExplosive materialScienceGeneral Physics and AstronomyMagnitude (mathematics)VolcanologyDeformation (meteorology)010502 geochemistry & geophysics01 natural sciencestiltGeneral Biochemistry Genetics and Molecular BiologyArticlePhysics::Geophysicsground deformationElectrical conduitOrders of magnitude (specific energy)ground deformation conduit dynamics early warningAstrophysics::Solar and Stellar AstrophysicsStromboli0105 earth and related environmental sciencesgeographyMultidisciplinarygeography.geographical_feature_categoryExplosive eruptionQGeneral ChemistryGeophysicsVolcanoMagmaSeismologyGeologydescription
The mild activity of basaltic volcanoes is punctuated by violent explosive eruptions that occur without obvious precursors. Modelling the source processes of these sudden blasts is challenging. Here, we use two decades of ground deformation (tilt) records from Stromboli volcano to shed light, with unprecedented detail, on the short-term (minute-scale) conduit processes that drive such violent volcanic eruptions. We find that explosive eruptions, with source parameters spanning seven orders of magnitude, all share a common pre-blast ground inflation trend. We explain this exponential inflation using a model in which pressure build-up is caused by the rapid expansion of volatile-rich magma rising from depth into a shallow (<400 m) resident magma conduit. We show that the duration and amplitude of this inflation trend scales with the eruption magnitude, indicating that the explosive dynamics obey the same (scale-invariant) conduit process. This scale-invariance of pre-explosion ground deformation may usher in a new era of short-term eruption forecasting.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2021-03-01 | Nature Communications |