Tracking the evolution of large-volume silicic magma reservoirs from assembly to supereruption

The most voluminous silicic volcanic eruptions in the geological past were associated with caldera collapses above giant silicic magma reservoirs. The thermal evolution of these sub-caldera magma reservoirs controls the volume of eruptible magma and eruptive style. Here we combine high-precision zir...

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Bibliographic Details
Published in:Geology (Boulder) 2013-08, Vol.41 (8), p.867-870
Main Authors: Wotzlaw, Jörn-Frederik, Schaltegger, Urs, Frick, Daniel A, Dungan, Michael A, Gerdes, Axel, Günther, Detlef
Format: Article
Language:English
Subjects:
absolute age
alkali feldspar
Ar/Ar
Canyons
Carbon dating
Cenozoic
Chemical elements
Colorado
dates
eruptions
feldspar group
Fish
Fish Canyon Tuff
framework silicates
geochemistry
Geochronology
Geology
igneous and metamorphic rocks
igneous rocks
Magma
magma chambers
magmas
magmatism
Mathematical models
melts
nesosilicates
Oligocene
orthosilicates
Paleogene
Petrology
pyroclastics
Reservoirs
San Juan volcanic field
sanidine
silicate melts
silicates
Tertiary
Thermal evolution
Trace elements
tuff
U/Pb
United States
volcanic rocks
Zircon
zircon group
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Summary:The most voluminous silicic volcanic eruptions in the geological past were associated with caldera collapses above giant silicic magma reservoirs. The thermal evolution of these sub-caldera magma reservoirs controls the volume of eruptible magma and eruptive style. Here we combine high-precision zircon U-Pb geochronology, trace element analyses of the same mineral grains, and mass balance modeling of zircon trace element compositions allowing us to track the thermal and chemical evolution of the Oligocene Fish Canyon Tuff magma reservoir (Colorado, United States) as a function of absolute time. Systematic compositional variations in U-Pb dated zircons record ∼440 k.y. of magma evolution. An early phase of volumetric growth was followed by a period of cooling and crystallization, during which the Fish Canyon magma approached complete solidification. Subsequent remelting, due to underplated andesitic recharge magmas, began 219 ± 45 k.y. prior to eruption, and led to the generation of ∼5000 km3 of eruptible crystal-rich (∼45 vol%) dacite. Age-equivalent, but compositionally different, zircons in an andesite enclave from late-erupted Fish Canyon Tuff tie the growth and thermal evolution of the upper-crustal reservoir to a lower-crustal magma processing zone. Our results demonstrate that the combination of high-precision dating and trace element analyses of accessory zircons can reveal invaluable information about the chemical and thermal histories of silicic magmatic systems and provides critical input parameters for fluid dynamic modeling.
ISSN:0091-7613
1943-2682
DOI:10.1130/G34366.1