Degassing of rhyolitic magma during ascent and emplacement
The degassing history of a rhyolitic igneous system was documented from analyses of drill core samples through the extrusive and intrusive portions of Obsidian Dome and of surface samples of associated tephra. The initial volatile composition of the Inyo magma was estimated to be 4.0 wt % H/sub 2/O, 500 ppm F, 800 ppm Cl, and 80 ppm S. Retained volatile contents of glassy and crystalline samples reflect the effects of decompression and second boiling. Decompression is rapid and involves loss of water-rich fluid until a close approach to lithostatic equilibrium is achieved. Second boiling is a slower process and produces a chlorine-rich fluid, some of which can be trapped during development of extremely fine crystallization textures. Nearly complete dewatering during decompression of surface-extruded magma strongly undercools the system (..delta..Tapprox. =175 /sup 0/C), suppressing crystallization and yielding glassy rhyolitic lava. Partial degassing of shallowly intruded magma permits pervasive crystallization even at high cooling rates. The subvolcanic intrusive regime is the zone of maximum volatile release because second boiling is incomplete in extrusives, and volatile-bearing crystalline phases are stable in magma crystallized at greater depth. copyright Amierican Geophysical Union 1988
- Research Organization:
- Geochemistry Division, Sandia National Laboratories, Albuquerque, New Mexico
- OSTI ID:
- 6935617
- Journal Information:
- J. Geophys. Res.; (United States), Vol. 93:B6
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
MAGMA
DEGASSING
RHYOLITES
ACTIVATION ANALYSIS
CRYSTALLIZATION
GLASS
LAVA
TRANSMISSION ELECTRON MICROSCOPY
VOLATILE MATTER
X-RAY DIFFRACTION
CHEMICAL ANALYSIS
COHERENT SCATTERING
DIFFRACTION
ELECTRON MICROSCOPY
IGNEOUS ROCKS
MATTER
MICROSCOPY
PHASE TRANSFORMATIONS
ROCKS
SCATTERING
VOLCANIC ROCKS
580202* - Geophysics- Volcanology- (1980-1989)