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Reconstructing the Physical Record of a Four-Million-Year Volcanic System : Geochemistry, Thermobarometry, and Geologic Map of the Mount Jefferson Area, Oregon

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Title Reconstructing the Physical Record of a Four-Million-Year Volcanic System : Geochemistry, Thermobarometry, and Geologic Map of the Mount Jefferson Area, Oregon
Names DiGiulio, Jennifer (creator)
Kent, Adam (advisor)
Date Issued 2015-11-19 (iso8601)
Note Graduation date: 2016
Abstract Volcanic and sedimentary deposits of the Mount Jefferson area (MJA) record a fourmillion-year
history of arc-related volcanism related to the subduction of the Juan de Fuca plate
beneath North America. 171 mapped stratigraphic units over an area of 150 km² reveal four
periods of volcanic activity resulting in diverse composition lavas ranging from ~48 to 72 wt%
SiO₂. Eruptive periods are divided into (1) ~4.0 - 0.78 Ma; (2) 0.78 - 0.3 Ma; (3) 0.3 - 0.02 Ma;
and (4) eruptions of the past 13,000 years. Repeated glaciations over the past 800,000 years have
sculpted the landscape of the MJA and include the Pleistocene glaciations of Jack Creek (early
Wisconsin) and Cabot Creek (late Wisconsin), and the Holocene glaciation of Jefferson Park.
Anomalously glassy lava flows, columnar jointing, and streamlined shapes are lithologic
evidence of intraglacial eruptions in numerous units, including the andesite of Whitewater Creek
(Qawc), andesite and dacite of Park Butte (Qapb; Qdpb), and the basaltic andesite of Whiskey
Creek (Qbawh).
Mineral compositions and textures are highly variable among the four units. Patchy to
oscillatory zoning in plagioclase and dissolution cores and partially resorbed rims in amphiboles
indicate pervasive disequilibrium conditions. Feldspar (~An₃₅₋₉₈) and amphibole (~1.1-1.5 ͥ ͮ Al)
compositions are relatively continuous across a broad range, and pyroxene compositions are
typically ~En₄₂₋₄₉ and En₆₅₋₇₄.
Phenocryst assemblages of units Qawc, Qapb, Qdpb, and Qbawh were probed to assess
pressure and temperature conditions of pre-eruptive magmas in the MJA. Estimates from
amphiboles, feldspars, and pyroxenes indicate temperatures ranging from ~650 to 1100 °C.
Pressure estimates indicate crystallization depths of ~3 to 25 km, with the majority of
crystallization occurring between ~15 and 25 km. Pyroxene temperatures (Putirka model) are
always the highest, (~950-1150 °C) and plagioclase-amphibole pair (HBAS model) temperatures
are the lowest (~650-875 °C), with amphibole temperatures (Ridolfi model) falling in between
those ranges. Calculated partition coefficients of Sr and Ba from this study range from 1.5 to
6.75 and 0.12 to 1.00, respectively, in close agreement with calculated partition coefficients of
Bindeman et al. (1998) and Dohmen and Blundy (2014). Reconstructed Sr concentrations range
from 227 to 799 µg/g, which is inconsistent with the melting of a Sr-rich andesite end-member
produced at 30-40 km depth as proposed by Conrey et al. (2001). The diverse spread of data
reported here suggests complex petrologic mixing processes predominantly occurring in the midto
upper crust beneath the MJA and contributes to the understanding of pre-eruptive magmatic
conditions in the Cascade volcanic arc
Genre Thesis/Dissertation
Access Condition http://creativecommons.org/licenses/by-nc-nd/3.0/us/
Topic Jefferson
Identifier http://hdl.handle.net/1957/58186

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