Simulating the seismicity induced by magmatic dikes with application to the 2000 dike propagation event at the Miyakejima volcano, Japan

Soravia, Luca (2023) Simulating the seismicity induced by magmatic dikes with application to the 2000 dike propagation event at the Miyakejima volcano, Japan. [Laurea magistrale], Università di Bologna, Corso di Studio in Fisica del sistema terra [LM-DM270]
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Abstract

Seismicity induced by fluid-filled intrusions, such as volcanic dikes or hydraulic fractures in industrial settings for the exploitation of georesources, can cause substantial damage to human communities and infrastructure. Thus, studying the spatio-temporal evolution of dikes and associated observables, including deformation and seismicity rates, is important not only for academic purposes but also to improve our ability to evaluate hazards. In this thesis, I develop models for two scenarios of dikes propagating in an brittle-elastic medium and producing deformation, stress and seismicity. For my simulations, I take inspiration from the 2000 dike propagation event at Miyakejima volcano in Japan. In the first scenario I consider a dike propagating at a constant velocity, volume and shape. In the second scenario, the dike still has constant volume, but a decreasing topographic loading at the surface modifies its size and velocity. The seismicity is simulated through Coulomb stress and the rate-state modeling. The dike, which is the source of change of the stress field, is modeled using the boundary elements technique. My simulations replicate some features of the seismicity observed during the Miyakejima dike propagation event, including the migration of an isolated cloud of earthquakes and the lateral thinning of the cloud. I conclude my thesis by suggesting future extensions to the models and tests to carry out with data, to improve the models' potential of forecasting earthquake rates during magma intrusions and hydraulic fracturing operations.

Abstract
Tipologia del documento
Tesi di laurea (Laurea magistrale)
Autore della tesi
Soravia, Luca
Relatore della tesi
Scuola
Corso di studio
Ordinamento Cds
DM270
Parole chiave
seismicity rates,propagating dike,rate-state model,numerical simulations,2000 Miyakejima dike event
Data di discussione della Tesi
14 Dicembre 2023
URI

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