Understanding the mechanisms of magma ascent preceding eruptions, and in particular the subvolcanic system that stores and transports magma to the surface, is of crucial relevance for hazard and risk assessment. We propose here a statistical model describing the rise of magma from the reservoir through the transport region via stress induced fracturing mechanisms of the medium. The model reproduces the general statistical properties of erupted volume, P( V), and inter-eruption time, P(t), found in catalogue data for closed conduit volcanoes. We also investigate conditional distribution ( e. g., the probability, P( V vertical bar t), to have a volume, V, erupted after a waiting time, t), which can have important practical implications.
Piegari, E., Cataudella, V., DI MAIO, R., Milano, L., Nicodemi, M., Scandone, R. (2008). A model of volcanic magma transport by fracturing stress mechanisms. GEOPHYSICAL RESEARCH LETTERS, 35, L06308 [10.1029/2007GL032710].
A model of volcanic magma transport by fracturing stress mechanisms
SCANDONE, Roberto
2008-01-01
Abstract
Understanding the mechanisms of magma ascent preceding eruptions, and in particular the subvolcanic system that stores and transports magma to the surface, is of crucial relevance for hazard and risk assessment. We propose here a statistical model describing the rise of magma from the reservoir through the transport region via stress induced fracturing mechanisms of the medium. The model reproduces the general statistical properties of erupted volume, P( V), and inter-eruption time, P(t), found in catalogue data for closed conduit volcanoes. We also investigate conditional distribution ( e. g., the probability, P( V vertical bar t), to have a volume, V, erupted after a waiting time, t), which can have important practical implications.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.