Although gas exsolution is a major driving force behind explosive volcanic eruptions, viscosity is critical in controlling the escape of bubbles and switching between explosive and effusive behavior. Temperature and composition control melt viscosity, but crystallization above a critical volume (>30 volume %) can lock up the magma, triggering an explosion. Here, we present an alternative to this well-established paradigm by showing how an unexpectedly small volume of nano-sized crystals can cause a disproportionate increase in magma viscosity. Our in situ observations on a basaltic melt, rheological measurements in an analog system, and modeling demonstrate how just a few volume % of nanolites results in a marked increase in viscosity ab...
Explosive fragmentation of basaltic magmas display peculiar features with respect to their silicic c...
Mafic magmas are the most common type of magma to erupt on Earth. The low viscosity of such magma re...
International audienceThe most viscous volcanic melts and the largest explosive eruptions on our pla...
Although gas exsolution is a major driving force behind explosive volcanic eruptions, viscosity is c...
Although gas exsolution is a major driving force behind explosive volcanic eruptions, viscosity is c...
Basaltic eruptions are the most common form of volcanism on Earth and planetary bodies. The low visc...
Basalt is the most ubiquitous magma on Earth, erupting typically at intensities ranging from quiesce...
Degassing dynamics play a crucial role in controlling the explosivity of magma at erupting volcanoes...
An increasing number of studies are being presented demonstrating that volcanic glasses can be heter...
The transition from viscous to brittle behavior in magmas plays a decisive role in determining the s...
The transition from viscous to brittle behavior in magmas plays a decisive role in determining the s...
Co-auteur étrangerInternational audienceThe variability in intensity and style shown by explosive vo...
Basaltic eruptions are the most common form of volcanism on Earth and planetary bodies. The low visc...
Explosive fragmentation of basaltic magmas display peculiar features with respect to their silicic c...
Mafic magmas are the most common type of magma to erupt on Earth. The low viscosity of such magma re...
International audienceThe most viscous volcanic melts and the largest explosive eruptions on our pla...
Although gas exsolution is a major driving force behind explosive volcanic eruptions, viscosity is c...
Although gas exsolution is a major driving force behind explosive volcanic eruptions, viscosity is c...
Basaltic eruptions are the most common form of volcanism on Earth and planetary bodies. The low visc...
Basalt is the most ubiquitous magma on Earth, erupting typically at intensities ranging from quiesce...
Degassing dynamics play a crucial role in controlling the explosivity of magma at erupting volcanoes...
An increasing number of studies are being presented demonstrating that volcanic glasses can be heter...
The transition from viscous to brittle behavior in magmas plays a decisive role in determining the s...
The transition from viscous to brittle behavior in magmas plays a decisive role in determining the s...
Co-auteur étrangerInternational audienceThe variability in intensity and style shown by explosive vo...
Basaltic eruptions are the most common form of volcanism on Earth and planetary bodies. The low visc...
Explosive fragmentation of basaltic magmas display peculiar features with respect to their silicic c...
Mafic magmas are the most common type of magma to erupt on Earth. The low viscosity of such magma re...
International audienceThe most viscous volcanic melts and the largest explosive eruptions on our pla...