Many calderas show remarkable unrest, which often does not culminate in eruptions (non-eruptive unrest). In this context the interpretation of the geophysical data collected by the monitoring networks is difficult. When the unrest is eruptive, a vent opening process occurs, which leads to an eruption. In calderas, vent locations typically are scattered over a large area and monogenic cones form. The resulting pattern is characterized by a wide dispersion of eruptive vents, therefore, the location of the future vent is not easily predictable. We propose an interpretation of the deformation associated to unrest and vent pattern commonly observed at calderas, based on a physical model that simulates the intrusion and the expansion of a...
Calderas are among the most active and dangerous volcanoes. Caldera unrest is defined by enhanced se...
The largest volcanic eruptions in the geologic record have no analogue in the historical record. The...
We present here a model which explains the mechanism of generation of unrest episodes at Campi Flegr...
The interpretation of dynamic processes that occur in volcanic calderas is not simple. The ground de...
The aim of this paper is to discuss a novel approach to provide insights on the probability of vent ...
Calderas are topographic depressions formed by the collapse of a partly drained magma reservoir. At ...
Caldera unrest, characterised by ground uplift and volcano-tectonic (VT) earthquakes, is governed by...
Calderas are subcircular depressions resulting from the withdrawal of magma from the chamber to feed...
Many active silicic caldera systems have undergone or are currently undergoing unrest episodes of ma...
Caldera eruptions are among the most hazardous of natural phenomena. Many calderas around the world...
Silicic caldera-forming eruptions require the combination of specific thermo-dynamic, mechanical and...
Many calderas show repeated unrest over centuries. Though probably induced by magma, this unique beh...
Caldera-forming eruptions are amongst the greatest natural hazards on our planet, erupting hundreds ...
Many calderas show repeated unrest over centuries. Though probably induced by magma, this unique be...
Calderas are among the most active and dangerous volcanoes. Caldera unrest is defined by enhanced se...
The largest volcanic eruptions in the geologic record have no analogue in the historical record. The...
We present here a model which explains the mechanism of generation of unrest episodes at Campi Flegr...
The interpretation of dynamic processes that occur in volcanic calderas is not simple. The ground de...
The aim of this paper is to discuss a novel approach to provide insights on the probability of vent ...
Calderas are topographic depressions formed by the collapse of a partly drained magma reservoir. At ...
Caldera unrest, characterised by ground uplift and volcano-tectonic (VT) earthquakes, is governed by...
Calderas are subcircular depressions resulting from the withdrawal of magma from the chamber to feed...
Many active silicic caldera systems have undergone or are currently undergoing unrest episodes of ma...
Caldera eruptions are among the most hazardous of natural phenomena. Many calderas around the world...
Silicic caldera-forming eruptions require the combination of specific thermo-dynamic, mechanical and...
Many calderas show repeated unrest over centuries. Though probably induced by magma, this unique beh...
Caldera-forming eruptions are amongst the greatest natural hazards on our planet, erupting hundreds ...
Many calderas show repeated unrest over centuries. Though probably induced by magma, this unique be...
Calderas are among the most active and dangerous volcanoes. Caldera unrest is defined by enhanced se...
The largest volcanic eruptions in the geologic record have no analogue in the historical record. The...
We present here a model which explains the mechanism of generation of unrest episodes at Campi Flegr...