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Could Kılauea's 2020 Post Caldera‐Forming Eruption Have Been Anticipated?

P. Segall, K. R. Anderson, Taiyi Wang

2022Geophysical Research Letters12 citationsDOIOpen Access PDF

Abstract

Abstract In 2018 Kı̄lauea volcano erupted a decade's worth of basalt, given estimated magma supply rates, triggering caldera collapse. Yet, less than 2.5 years later Kı̄lauea re‐erupted. At the 2018 eruption onset, pressure within the summit reservoir was ∼20 MPa above magmastatic. By the onset of collapse this decreased by ∼17 MPa. Analysis of magma surges at the 2018 fissures, following collapse events, implies excess pressure at the eruption end of only ∼1 MPa. Given the new vent elevation, ∼11–12 MPa pressure increase was required to bring magma to the surface in December 2020. Analysis of Global Positioning System data between 8/2018 and 12/2020 shows there was a 73% probability that this condition was met at the onset of the 2020 eruption. Given a plausible range of possible vent elevations, there was a 40%–88% probability of sufficient pressure to bring magma to the surface 100 days before the eruption.

Topics & Concepts

CalderaGeologyLateral eruptionMagmaVolcanoEffusive eruptionMagma chamberSeismologyPetrologyBasaltExplosive eruptionGeochemistryearthquake and tectonic studiesGeological and Geochemical AnalysisHigh-pressure geophysics and materials
Could Kılauea's 2020 Post Caldera‐Forming Eruption Have Been Anticipated? | Litcius