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NARROW
GeoRef Subject
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all geography including DSDP/ODP Sites and Legs
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Battle Mountain (1)
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Black Rock Desert (1)
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North America
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Basin and Range Province
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Great Basin (2)
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Slide Mountain Terrane (1)
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United States
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Great Basin (2)
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Nevada
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Churchill County Nevada (2)
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Humboldt County Nevada (2)
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Lander County Nevada (1)
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Pershing County Nevada
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Humboldt Range (1)
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Washoe County Nevada (1)
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commodities
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geothermal energy (2)
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metal ores
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copper ores (1)
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gold ores (1)
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silver ores (1)
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uranium ores (1)
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mineral deposits, genesis (3)
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elements, isotopes
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hydrogen
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isotope ratios (1)
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precious metals (1)
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neodymium
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oxygen
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sulfur
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S-34/S-32 (2)
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fossils
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Primary terms
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upper Miocene (1)
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Chordata
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crust (1)
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intrusions (2)
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isotopes
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Mesozoic
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Cretaceous (2)
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metal ores
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metals
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actinides
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alkaline earth metals
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Sr-87/Sr-86 (1)
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North America
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sulfur
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United States
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Great Basin (2)
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Nevada
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Churchill County Nevada (2)
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Humboldt County Nevada (2)
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Lander County Nevada (1)
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Pershing County Nevada
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Humboldt Range (1)
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Washoe County Nevada (1)
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well-logging (1)
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sedimentary rocks
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sedimentary rocks (1)
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sediments
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sediments (1)
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Sonoma Orogeny—A Reassessment
The Late Permian to earliest Triassic Sonoma orogeny has long been envisioned as the result of an arc-continent collision that closed the Havallah oceanic basin, creating the Golconda allochthon, which was emplaced eastward onto the western edge of the continental margin along the Golconda thrust. Critical reevaluation of available stratigraphic, biostratigraphic, and structural data raise some fundamental issues with this scenario, including: (1) The Golconda allochthon experienced multiple phases of deformation both older and younger than the Sonoma orogeny; (2) the tectonostratigraphic successions in the Golconda allochthon record a disrupted depositional history; (3) these punctuated events and unconformities are mirrored by simultaneous punctuated tectonic disruptions of the adjacent continental margin; (4) some of the lithotectonic units within the Golconda allochthon have clear ties to a magmatic arc. These observations indicated that the Havallah basin did not originate as a simple, post-Antler orogeny rift basin, nor is the Mediterranean model for opening of a basin a solution to the initiation of this basin. Instead they imply a more complex paleogeography for the Havallah basin. The Late Permian–earliest Triassic closure of the Havallah basin did result in the development of the Golconda allochthon sensu stricto , but final emplacement of the Golconda allochthon was likely an Early–Middle Jurassic event.
ABSTRACT This field trip traverses the Sahwave and Nightingale Ranges in central Nevada, USA, and northward to Gerlach, Nevada, to the Granite, northern Fox, and Selenite Ranges. Plutonic bodies in this area include the ca. 93–89 Ma Sahwave nested intrusive suite of the Sahwave and Nightingale Ranges, the ca. 106 Ma Power Line intrusive complex of the Nightingale Range, the ca. 96 Ma plutons in the Selenite Range, and the ca. 105–102 Ma plutons of the Granite and Fox Ranges. Collectively these plutons occupy nearly 1000 km 2 of bedrock exposure. Plutons of the Sahwave, Nightingale, and Selenite Ranges intrude autochthonous rocks east of the western Nevada shear zone, while plutons of the Granite and Fox Ranges intrude displaced terranes west of the western Nevada shear zone. Integrated structural, geochemical, and geochronological studies are used to better understand magmatic and deformation processes during the Early Cretaceous, correlations with Cretaceous plutons in adjacent areas of Idaho and California, and regional implications. Field-trip stops in the Sahwave and Nightingale Ranges will focus on: (1) microstructure and orientation of magmatic and solid-state fabrics of the incrementally emplaced granodiorites-granites of the Sahwave intrusive suite; and (2) newly identified dextral shear zones hosted within intrusions of both the Sahwave and Nightingale Ranges. The Sahwave intrusive suite exhibits moderate to weak magnetic fabrics determined using anisotropy of magnetic susceptibility, with magnetic foliations that strike NW-NE and magnetic lineations that plunge moderately to steeply. Microstructural analysis indicates that these fabrics formed during magmatic flow. The older Power Line intrusive complex in the Nightingale Range is cross-cut by the Sahwave suite and contains a N-S–trending solid-state foliation that reflects ductile dextral shearing. Field-trip stops in the plutons of the Gerlach region will focus on composition, texture, and emplacement ages, and key differences with the younger Sahwave suite, including lack of evidence for zoning and solid-state fabrics. The field trip will utilize StraboSpot, a digital data system for field-based geology that allows participants to investigate the relevant data projects in the study areas.