Early postcaldera rhyolite and structural resurgence at Long Valley Caldera, California

Wes Hildreth; Judith E. Fierstein; Andrew T. Calvert

doi:10.1016/j.jvolgeores.2017.01.005

Early postcaldera rhyolite and structural resurgence at Long Valley Caldera, California

Journal of Volcanology and Geothermal Research

By: Wes Hildreth, Judith E. Fierstein, and Andrew T. Calvert

https://doi.org/10.1016/j.jvolgeores.2017.01.005

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Abstract

After the 767-ka caldera-forming eruption of 650 km³ of rhyolite magma as the Bishop Tuff, 90–100 km³ of similar rhyolite erupted in the west-central part of Long Valley caldera in as many as 40 batches spread over the 110,000-year interval from ~ 750 ka to ~ 640 ka. Centrally, this Early Rhyolite (ER) is as thick as 622 m, but it spread radially to cover much of the caldera floor, where half its area is now concealed by post-ER sediments and lavas. At least 75% of the ER is aphyric rhyolite tuff. Drillholes encountered ~ 22 (altered) ER lava flows intercalated in the pyroclastic pile, and another 11 units of (largely fresh) ER lava are exposed on the caldera's resurgent dome and at Lookout Mountain. Exposed units have been distinguished, mapped, studied petrographically and chemically, and radioisotopically dated; each is described in detail. Their phenocryst contents range from 0 to 2.5 wt%. All the phyric units have plagioclase, orthopyroxene, and ilmenite; most have biotite and rare tiny magnetite, and a few contain rare zircon. The compositional range of fresh obsidians is narrow—74.3–75.0% SiO₂, 1.21–1.37% FeO*, and 5.12–5.26% K₂O, but wider variations in Ti, Ba, Sr, and Zr permit distinction of individual units and eruptive groups. The limited chemical and petrographic variability shown by so many ER batches released episodically for ~ 110,000 years suggests a thermally buffered and well-stirred reservoir.

The ER central area, where ER eruptions had taken place, was uplifted ~ 400 m to form a structural dome ~ 10 km in diameter. Most of the inflation is attributable to 10 sills of ER that intrude the Bishop Tuff beneath the uplift, but other processes potentially contributing to resurgence are also considered. As shown by erratics of Mesozoic rocks ice-rafted from the Sierra Nevada and dropped on ER lavas, much of the ER had erupted early enough and at low enough elevation to be inundated by the intracaldera lake and was only later lifted by the resurgence that also raised clusters of the erratics hundreds of meters higher than any shoreline. Most of the uplift was over by ~ 570 ka, but dome-crossing faults that exhibit normal throw of 10–30 m cut lavas as young as 175–125 ka.

For most elements, chemical ranges of the ER lie within those of the zoned Bishop Tuff, which had erupted earlier from the same place. Only Ba, Zr, Hf, and Eu/Eu* extend to ranges outside those of the Bishop Tuff, nominally to less evolved compositions. Initial ⁸⁷Sr/⁸⁶Sr values of ER are likewise within the range of the Bishop Tuff, but ER ratios of ¹⁴³Nd/¹⁴⁴Nd and ²⁰⁶Pb/²⁰⁴Pb extend beyond those of the Bishop Tuff to values slightly more influenced by upper-crustal contributions. FeTi-oxide geothermometry yields 752°–844 °C for ER, compared to 700°–820 °C for the Bishop Tuff. ER fO₂ values are 0.5–1.0 log units more reduced than those of the T–fO₂ array of the Bishop Tuff. The postcaldera reduction may reflect reaction with graphite from the black lithics of Paleozoic graphitic metapelite so abundant in the Bishop Tuff. Much of the pumice emplaced during the later half of the Bishop Tuff eruption has 10–25 wt% phenocrysts, dominantly quartz and sanidine, but the 100 km³ of ER has only 0–2.5 wt% and completely lacks quartz and sanidine. Postcaldera processes, including mixing, volatile ascent, and crystal resorption, as well as potential contaminants and magmatic inputs, are all considered.

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Additional publication details
Publication type	Article
Publication Subtype	Journal Article
Title	Early postcaldera rhyolite and structural resurgence at Long Valley Caldera, California
Series title	Journal of Volcanology and Geothermal Research
DOI	10.1016/j.jvolgeores.2017.01.005
Volume	335
Year Published	2017
Language	English
Publisher	Elsevier
Contributing office(s)	Volcano Science Center
Description	34 p.
First page	1
Last page	34
Country	United States
State	California
Other Geospatial	Long Valley Caldera
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