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NARROW
GeoRef Subject
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all geography including DSDP/ODP Sites and Legs
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Africa
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East Africa
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Kenya
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Lake Magadi (2)
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Lake Natron (2)
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Lake Turkana (2)
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East African Lakes
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Lake Magadi (2)
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Lake Natron (2)
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Lake Tanganyika (2)
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Lake Turkana (2)
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Australasia
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Australia (2)
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Dixie Valley (1)
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Indian Ocean
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North America
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Basin and Range Province
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Great Basin (7)
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Rocky Mountains
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United States
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elements, isotopes
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isotopes
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fossils
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Lake Lahontan (17)
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upper Quaternary (1)
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Lake Bonneville (7)
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minerals
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carbonates
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ikaite (1)
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hydrates (1)
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minerals (1)
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Primary terms
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absolute age (4)
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Africa
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East Africa
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Kenya
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Lake Magadi (2)
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Lake Natron (2)
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Lake Turkana (2)
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East African Lakes
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Lake Magadi (2)
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Lake Natron (2)
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Lake Tanganyika (2)
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Lake Turkana (2)
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Australasia
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Australia (2)
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carbon
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C-14 (6)
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Cenozoic
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Quaternary
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Holocene
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Middle Ages (1)
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upper Holocene (1)
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Pleistocene
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Lake Lahontan (17)
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upper Pleistocene
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Wisconsinan
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lower Wisconsinan (1)
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upper Quaternary (1)
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climate change (1)
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earthquakes (2)
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explosions (1)
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faults (3)
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geomorphology (1)
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igneous rocks
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plutonic rocks
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granites (1)
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Indian Ocean
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Red Sea (1)
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Invertebrata
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Mollusca
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Gastropoda (2)
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isotopes
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radioactive isotopes
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C-14 (6)
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Cl-36 (2)
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mantle (1)
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minerals (1)
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North America
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Basin and Range Province
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Great Basin (7)
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Rocky Mountains
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U. S. Rocky Mountains
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sedimentary rocks
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limestone
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microbialite (2)
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tufa (4)
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sedimentary structures
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tectonics
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United States
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California
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Mono County California
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Mono Lake (3)
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Great Basin (7)
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Idaho (1)
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Nevada
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Carson City County Nevada (1)
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Douglas County Nevada (1)
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Humboldt County Nevada
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Winnemucca Nevada (1)
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Lyon County Nevada (1)
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Pershing County Nevada
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Humboldt Range (1)
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Storey County Nevada (1)
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Washoe County Nevada (1)
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Oregon (1)
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U. S. Rocky Mountains
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Western U.S. (2)
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weathering (1)
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sedimentary rocks
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sedimentary rocks
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carbonate rocks
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limestone
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microbialite (2)
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chemically precipitated rocks
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tufa (4)
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sedimentary structures
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sedimentary structures
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biogenic structures
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stromatolites (1)
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sediments
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sediments
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carbonate sediments (1)
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clastic sediments
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alluvium (1)
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loess (1)
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soils
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soils (2)
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Lake Lahontan
The blast, the quake, and the bomb: A guide to high-energy events in western Nevada, USA
ABSTRACT This guide presents an eight-hour, in-person tour of intersecting geologic and human history in western Nevada, USA. A 25 megaton phreatomagmatic blast created a mile-wide (1.6-km-wide) maar, now filled by Soda Lake. The magnitude 7 Dixie Valley earthquake ripped along more than 45 km of the Stillwater Range front in 1954. The 12 kiloton Shoal nuclear test in 1963 created a 50-m-wide cavity in solid granite.
ABSTRACT Shorelines formed by terminal lakes record past changes in regional moisture budgets. In the western Great Basin of North America, winter precipitation accounts for nearly half of the annual total and is well correlated with northeast Pacific storm track activity and moisture transport. We evaluated these relationships and found that historical precipitation between 1910 and 2012 was better correlated to moisture transport (0.78, p < 0.01) than to storm track activity (0.54, p < 0.01) because moisture transport better captures dynamics associated with the Sierra Nevada rain shadow. We derived modern analogs of enhanced and reduced storm track activity and moisture transport from reanalysis products and used associated winter precipitation anomalies with these analogs as inputs to a coupled water balance and lake evaporation model of the Walker Lake basin. Simulated lake-level responses were compared with a radiocarbon-dated lakeshore chronology spanning the past 3700 yr. Wet analogs developed from winters in the 90th and 75th percentiles for storminess and moisture transport produced lake levels that exceeded estimated late Holocene highstands by 50 m. Dry analogs (10th and 25th percentiles) produced lake levels corresponding to Medieval megadrought lowstands. The twentieth century is shown to be as wet as any century in the past 3700 yr. Our results demonstrate the sensitivity of terminal lakes to winter season circulations and highlight the value of using moisture transport as a predictor of cool season precipitation and to evaluate how past or future changes in regional circulations will influence the water balance of dryland regions.
Middle and late Pleistocene pluvial history of Newark Valley, central Nevada, USA
ABSTRACT Newark Valley lies between the two largest pluvial lake systems in the Great Basin, Lake Lahontan and Lake Bonneville. Soils and geomorphology, stratigraphic interpretations, radiocarbon ages, and amino acid racemization geochronology analyses were employed to interpret the relative and numerical ages of lacustrine deposits in the valley. The marine oxygen isotope stage (MIS) 2 beach barriers are characterized by well-preserved morphology and deposits with youthful soil development, with Bwk horizons and maximum stage I+ carbonate morphology. Radiocarbon ages of gastropods and tufas within these MIS 2–age deposits permit construction of a latest Pleistocene lake-level curve for Newark Valley, including a maximum limiting age of 13,780 ± 50 14 C yr B.P. for the most recent highstand, and they provide a calibration point for soil development in lacustrine deposits in the central Great Basin. The MIS 8–age to MIS 4–age beach barriers are higher in elevation and represent a larger lake than existed during MIS 2. The beach barriers have subdued morphology, are only preserved in short segments, and have stronger soil development, with Bkm and/or Bkmt horizons and maximum stage III+ to IV carbonate morphology. Newark Lake reached elevations higher than the MIS 2 highstand during at least two additional pluvial periods, MIS 16 and MIS 12, 10, or 8. These oldest lacustrine deposits do not have preserved shoreline features and are represented only by gravel lags, buried deposits, and buried soils with similar strong soil development. This sequence of middle and latest Pleistocene shorelines records a long-term pluvial history in this basin that remained internally drained for the last four or more pluvial cycles. Obtaining numerical ages from material within lacustrine deposits in the Great Basin can be challenging. Amino acid D/L values from gastropod shells and mollusk valves proved to be a valuable tool to correlate lacustrine deposits within Newark Valley. Comparison of soils and geomorphology results to independent 36 Cl cosmogenic nuclide ages from a different study indicated unexpected changes in rates of soil development during the past ~200,000 yr and suggested that common stratigraphic changes in lake stratigraphy could obscure incremental changes in soil development and/or complicate 36 Cl cosmogenic nuclide age estimates.
Lacustrine carbonate tufa facies of Winnemucca Dry Lake Basin, Nevada, U.S.A.
Abstract Driven by requests to provide carbonate analogs for subsurface hydrocarbon exploration in rift settings, we have identified and described select examples, summarized them from a carbonate perspective, and assembled them into a GIS database. The analogs show a spectrum of sizes, shapes and styles of deposition for lacustrine and marginal marine settings, wherein the types of carbonates inferred from seismic and cores (emphasis on microbialites, tufas, and travertines) can be illustrated.
Assessing the extent of carbonate deposition in early rift settings
Cosmogenic nuclide and uranium-series dating of old, high shorelines in the western Great Basin, USA
Isostatic rebound, active faulting, and potential geomorphic effects in the Lake Lahontan basin, Nevada and California
Shoreline processes and the age of the Lake Lahontan highstand in the Jessup embayment, Nevada
Geomorphic evidence for Holocene earthquakes in the Olinghouse fault zone, western Nevada
Little is known for certain about early Wisconsin (isotope stage 4) lakes and glaciers of the Great Basin. A moderate lake-level rise in the Bonneville basin is not well dated, but on the basis of amino-acid and radiocarbon ages, is thought to be early Wisconsin in age. A moderate rise of lakes in the basins of Lake Lahontan is dated as ca. 50 ka by U-series ages on tufa, but may have occurred earlier. In the southern Great Basin, Searles Lake fluctuated at levels below the threshold connecting it with Panamint Valley, and Panamint Valley apparently did not contain a large lake during the early Wisconsin. The glacial record is even less-well dated than the lacustrine record. The extent of glaciers in and around the Great Basin during the early Wisconsin is not known; ice extent was certainly greater than at present, but probably was less than the late Wisconsin maximum in most glaciated valleys. Further work is necessary to refine lacustrine and glacial chronologies, and to investigate the causes of lake vs. glacier expansion. Important clues to these questions will come from detailed studies of lacustrine and glacial sequences in different parts of the Great Basin.