Title:
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Gradients in silicic eruptions caused by rapid inputs from above and below rather than protracted chamber differentiation
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Reference Number:
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8667
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ISSN:
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0377-0273
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Publication Year:
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2007
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GeoREF Number:
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2008-109892 (View Original Data File)
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Authors:
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Knesel, Kurt M; Duffield, Wendell A
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Descriptors:
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Source:
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Journal of Volcanology and Geothermal Research, vol. 167, pp. 181-197, Nov 2007
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Abstract:
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Gradients in the products of voluminous (10 (super 2) -10 (super 3) km (super 3) ) silicic eruptions are widely attributed to magmatic stratification developed by in situ differentiation over long periods of time (10 (super 4) -10 (super 5) years) in sub-volcanic chambers. Although the pattern of chemical and mineralogical variations may support magmatic zonation in the source reservoir at the time of eruption, evidence for protracted chamber differentiation is often equivocal. We report trace-element concentrations of sanidine phenocrysts measured by inductively coupled plasma mass spectrometry in the rapidly effused lavas of the 100 km (super 3) Taylor Creek Rhyolite, New Mexico, which link much of the eruptive heterogeneity of the domes and flows to mixing of fresh, crystal-poor, incompatible-element-rich, low- (super 87) Sr/ (super 86) Sr magma from below with partially crystallized, roof-rock contaminated, compatible-element-rich, high- (super 87) Sr/ (super 86) Sr magma resident in the shallow crust. Time constraints provided by high-resolution (super 40) Ar/ (super 39) Ar geochronology, reconstruction of the path of geomagnetic secular variation, and calculated cooling histories of overlapping eruptive units suggest that inputs from both above and below modified magma compositions during the lifespan of the dome field over periods as brief as a few hundred years or less. These domes thereby provide evidence that chemical gradients need not exist for protracted periods of time prior to eruption of zoned silica-rich magma. Comparisons with some ignimbrites reinforce this view and highlight the importance of processes occurring both at and below the pre-eruptive storage chamber in production of the chemical zonation in silicic systems.
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Copyright:
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GeoRef, Copyright 2008, American Geological Institute. Reference includes data from CAPCAS, Elsevier Scientific Publishers, Amsterdam, Netherlands
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