Abstract
Explosive eruptions at steep-sided volcanoes may develop with complex precursor activity occurring in a poorly-understood magma plumbing system so that timelines and possible interactions with the geologic surrounding are often unresolved. Here we investigate the episode prior to the energetic December 20, 2017 eruption at Bezymianny volcano, Kamchatka. We compare degassing activity inferred from time-lapse camera images, seismicity and real-time seismic amplitude (RSAM) data derived from a temporary station network, as well as high-resolution InSAR displacement maps. Results show that the first changes can be identified in low-frequency seismicity and degassing at least 90 days before the eruption, while the first volcano-tectonic (VT) seismicity occurred 50 days before the eruption. Coinciding with significant changes of the RSAM, surface displacements affect the volcanic flanks at least 9 days prior to the eruption. Inversion modeling of the pre-eruptive surface deformation as well as deflation-type, co-eruptive surface changes indicate the presence of a shallow and transient reservoir. We develop a conceptual model for Bezymianny volcano initiating with deep seismicity, followed by shallow events, rockfalls, steaming and an inflating reservoir. The eruption is then associated with subsidence, caused by deflation of the same reservoir. This sequence and conceivable causality of these observations are providing a valuable contribution to our understanding of the shallow magma plumbing system beneath Bezymianny and may have relevance for volcano monitoring and early warning strategies at similar volcanoes elsewhere.
Highlights
Eruptions of volcanoes are commonly preceded by the arrival of new magma, or its mobilization by other factors internal or external to the magma plumbing system (Jaupart and Allègre, 1991)
The 2D kernel density estimation of the lateral distribution of these events reveals a high density within the amphitheater of Bezymianny, another small higher density area exists to the southeast of the volcano (Supplementary Figure S1A)
Most of the referenced Lassie events are located beneath the amphitheater of the Bezymianny volcano, and close to the surface at 2–3 km depth, with a few events located off-centered to the northeast
Summary
Eruptions of volcanoes are commonly preceded by the arrival of new magma, or its mobilization by other factors internal or external to the magma plumbing system (Jaupart and Allègre, 1991). The magmatic system of volcanoes stretches through the entire crust and is commonly composed of multiple magmatic reservoirs interconnected by magma conduits within a largely crystalline mush. Ultimate destabilization of the shallow reservoir and upper conduit formation may be accomplished by pressurization of the shallow reservoir tapping the magmatic bulk of the deeper reservoir (Scandone et al, 2007; Roman and Cashman, 2018). To better understand the distribution, migration, and accumulation of magmatic fluids within the magma plumbing system of active volcanoes, it is crucial to combine different geophysical and geochemical disciplines (Burchardt and Galland, 2016; Magee et al, 2018)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
