It has long been assumed that seismogenic faulting is confined to cool, brittle rocks, with a temperature upper limit of 600 °C (ref. 1). This thinking underpins our understanding of volcanic earthquakes, which are assumed to occur in cold rocks surrounding moving magma. However, the recent discovery of abundant brittle–ductile fault textures in silicic lavas2, 3, 4 has led to the counter-intuitive hypothesis that seismic events may be triggered by fracture and faulting within the erupting magma itself. This hypothesis is supported by recent observations of growing lava domes, where microearthquake swarms have coincided with the emplacement of gouge-covered lava spines5, 6, leading to models of seismogenic stick-slip along shallow shear zon...
A variety of seismic signals representing different physical mechanisms precedes volcanic eruptions....
Silicic volcanic eruptions are typically accompanied by repetitive long-period (LP) seismicity that ...
The 2004–2008 eruption of Mount St. Helens, Washington, USA, formed a typical example of a Pelean sp...
The rheology and strength of bubbly magma govern eruption dynamics by determining the possibility of...
It is proposed that fault textures in two dissected rhyolitic conduits in Iceland preserve evidence ...
During volcanic eruptions, domes of solidifying magma can form at the volcano summit. As magma ascen...
International audienceVolcanic seismicity during silicic spine eruptions often involves recurrent ex...
The physical processes generating seismicity within volcanic edifices are highly complex and not ful...
Earthquakes occur in a variety of geologic settings throughout the Earth: from volcanic summits all ...
Basalt is the most ubiquitous magma on Earth, erupting typically at intensities ranging from quiesce...
A variety of seismic signals representing different physical mechanisms precedes volcanic eruptions....
Basaltic eruptions are the most common form of volcanism on Earth and planetary bodies. The low visc...
Silicic caldera-forming eruptions require the combination of specific thermo-dynamic, mechanical and...
The transition from viscous to brittle behavior in magmas plays a decisive role in determining the s...
Magma is a viscoelastic fluid that can support fracture propagation when local shear stresses are hi...
A variety of seismic signals representing different physical mechanisms precedes volcanic eruptions....
Silicic volcanic eruptions are typically accompanied by repetitive long-period (LP) seismicity that ...
The 2004–2008 eruption of Mount St. Helens, Washington, USA, formed a typical example of a Pelean sp...
The rheology and strength of bubbly magma govern eruption dynamics by determining the possibility of...
It is proposed that fault textures in two dissected rhyolitic conduits in Iceland preserve evidence ...
During volcanic eruptions, domes of solidifying magma can form at the volcano summit. As magma ascen...
International audienceVolcanic seismicity during silicic spine eruptions often involves recurrent ex...
The physical processes generating seismicity within volcanic edifices are highly complex and not ful...
Earthquakes occur in a variety of geologic settings throughout the Earth: from volcanic summits all ...
Basalt is the most ubiquitous magma on Earth, erupting typically at intensities ranging from quiesce...
A variety of seismic signals representing different physical mechanisms precedes volcanic eruptions....
Basaltic eruptions are the most common form of volcanism on Earth and planetary bodies. The low visc...
Silicic caldera-forming eruptions require the combination of specific thermo-dynamic, mechanical and...
The transition from viscous to brittle behavior in magmas plays a decisive role in determining the s...
Magma is a viscoelastic fluid that can support fracture propagation when local shear stresses are hi...
A variety of seismic signals representing different physical mechanisms precedes volcanic eruptions....
Silicic volcanic eruptions are typically accompanied by repetitive long-period (LP) seismicity that ...
The 2004–2008 eruption of Mount St. Helens, Washington, USA, formed a typical example of a Pelean sp...