Journal ArticleDOI
Eureka Valley Tuff, East-Central California and Adjacent Nevada
Donald C. Noble,David B. Slemmons,Marjorie K. Korringa,William R. Dickinson,Yehya Al-Rawi,Edwin H. McKee +5 more
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The Eureka Valley Tuff consists of two major ash-flow sheets and a local overlying sequence of ashflow tuff erupted from vents within the Little Walker caldera 11 mi west-northwest of Bridgeport, in east-central California as mentioned in this paper.Abstract:
The Eureka Valley Tuff consists of two major ash-flow sheets and a local over-lying sequence of ash-flow tuff erupted from vents within the Little Walker caldera 11 mi west-northwest of Bridgeport, in east-central California. The lower of the two major ash-flow sheets, here named the Tollhouse Flat Member, is the “biotite-augite-latite” of Ransome (1898). The overlying By-Day Member can readily be identified by the absence of phenocrystic biotite and by paleomagnetic and other petrographic criteria. The recognition of the distinctive By-Day Member above the Tollhouse Flat Member both in the Bridgeport area and west of the Sierra crest unequivocally demonstrates the generally accepted correlation of the latitic ash-flow tuffs of the two areas. K-Ar age determinations indicate that the three members of the Eureka Valley Tuff were erupted within a very short interval of time about 9.5 m.y. ago.read more
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Book ChapterDOI
Post-Laramide geology of the U.S. Cordilleran region
Robert L. Christiansen,Robert S. Yeats,Stephan A. Graham,Wendy A. Niem,Alan R. Niem,Parke D. Snavely +5 more
Journal ArticleDOI
Stream Incision, Tectonics, Uplift, and Evolution of Topography of the Sierra Nevada, California
TL;DR: In this article, the authors show that the Sierra Nevada topography is a consequence of two periods of uplift, i.e., stream incision and dextral faulting.
Journal ArticleDOI
Oligocene caldera complex and calc-alkaline tuffs and lavas of the Indian Peak volcanic field, Nevada and Utah
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The Cascade Mountains revisited: A re-evaluation in light of new lead isotopic data
TL;DR: In this article, two-point mixing lines are demonstrated for main cone-satellitic cone pairs from Glacier Peak, Mt. Baker and Mt. Shasta for lead isotope analyses of pre-Astoria Fan sediments from DSDP Leg 18 sites and from the Eocene Tyee Formation.
Book ChapterDOI
The ancestral Cascades arc: Cenozoic evolution of the central Sierra Nevada (California) and the birth of the new plate boundary
Cathy J. Busby,Jeanette C. Hagan,Keith Putirka,Christopher J. Pluhar,Phillip B. Gans,David L Wagner,Dylan H. Rood,Steve B DeOreo,Ian Skilling +8 more
TL;DR: This paper integrated new stratigraphic, structural, geochemical, geochronological, and magnetostratigraphic data on Cenozoic volcanic rocks in the central Sierra Nevada to arrive at closely inter-related new models for: (1) the paleogeography of the ancestral Cascades arc, (2) the stratigraphic record of uplift events in the Sierra Nevada, (3) the tectonic controls on volcanic styles and compositions in the arc, and (4) the birth of a new plate margin.