Add to ORKGCataclysmic eruptions of silicic magma from "supervolcanoes" are among the most awe-inspiring natural phenomena found in the geologic record, in terms of size, power, and potential hazard. Based on the repose intervals between eruptions of this magnitude, the magmas responsible for them could accumulate gradually in the shallow crust over time scales that may be in excess of a million years (Smith, 1979; Spera and Crisp, 1981; Shaw, 1985). Pre-eruption magma residence time scales can also be inferred from the age difference between eruption (i.e., using 40Ar/39Ar dating to determine the time when hot erupted material cools to below its Ar closure temperature, 200 to 600 degC) and early pre-eruption crystallization (i.e., zircon saturation t...
Large-volume silicic volcanism poses global hazards in the form of proximal pyroclastic density curr...
Rhyolites erupted at 526--80 ka north of Yellowstone Caldera may record the most recent migration of...
The Jemez volcanic field (JVF), New Mexico, is a caldera-forming volcanic field located at the junct...
The high-silica rhyolite lavas of Glass Mountain, California, provide a detailed record of the evolu...
Graduation date: 2011Constraining the development, evolution, and timescales of large silicic magma ...
<div><p>Supereruptions violently transfer huge amounts (100 s–1000 s km<sup>3</sup>) of magma to the...
International audienceCaldera-forming volcanic eruptions are low-frequency, highimpact events capabl...
A little more than 760 ka ago, a supervolcano on the eastern edge of California (United States) unde...
Silicic magmatic systems are fundamental to the production and evolution of continental crust, the r...
textExplosive, caldera forming "super-eruptions" (an eruption of VEI 8 or larger, resulting in 1000+...
abstract: Volcanic eruptions can be serious geologic hazards, and have the potential to effect human...
High-silica rhyolites (> 75 wt% SiO2) are the most differentiated magmas on Earth and are known for ...
Large-volume silicic volcanism poses global hazards in the form of proximal pyroclastic density curr...
Large-volume silicic volcanism poses global hazards in the form of proximal pyroclastic density curr...
Rhyolites erupted at 526--80 ka north of Yellowstone Caldera may record the most recent migration of...
The Jemez volcanic field (JVF), New Mexico, is a caldera-forming volcanic field located at the junct...
The high-silica rhyolite lavas of Glass Mountain, California, provide a detailed record of the evolu...
Graduation date: 2011Constraining the development, evolution, and timescales of large silicic magma ...
<div><p>Supereruptions violently transfer huge amounts (100 s–1000 s km<sup>3</sup>) of magma to the...
International audienceCaldera-forming volcanic eruptions are low-frequency, highimpact events capabl...
A little more than 760 ka ago, a supervolcano on the eastern edge of California (United States) unde...
Silicic magmatic systems are fundamental to the production and evolution of continental crust, the r...
textExplosive, caldera forming "super-eruptions" (an eruption of VEI 8 or larger, resulting in 1000+...
abstract: Volcanic eruptions can be serious geologic hazards, and have the potential to effect human...
High-silica rhyolites (> 75 wt% SiO2) are the most differentiated magmas on Earth and are known for ...
Large-volume silicic volcanism poses global hazards in the form of proximal pyroclastic density curr...
Large-volume silicic volcanism poses global hazards in the form of proximal pyroclastic density curr...
Rhyolites erupted at 526--80 ka north of Yellowstone Caldera may record the most recent migration of...
The Jemez volcanic field (JVF), New Mexico, is a caldera-forming volcanic field located at the junct...