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NARROW
GeoRef Subject
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all geography including DSDP/ODP Sites and Legs
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Aar Valley (1)
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Africa
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Southern Africa
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South Africa
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Eastern Cape Province South Africa
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Port Elizabeth South Africa (1)
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Asia
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Far East
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China
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Tibetan Plateau (1)
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Europe
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Alps
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North America
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Rocky Mountains
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United States
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Primary terms
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Africa
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Southern Africa
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South Africa
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KwaZulu-Natal South Africa
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Asia
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Far East
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China
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carbon
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Europe
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Swiss Alps
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Central Europe
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Switzerland
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Bern Switzerland (1)
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Swiss Alps
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Northern Swiss Alps (1)
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Southern Europe
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Italy
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Apennines
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Sicily Italy
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Western Europe
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isotopes
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Al-26 (16)
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Be-10 (21)
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C-14 (2)
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Cl-36 (2)
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I-129 (1)
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stable isotopes
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He-3 (1)
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O-18/O-16 (1)
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metals
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alkaline earth metals
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beryllium
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Be-10 (21)
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aluminum
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Al-26 (16)
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noble gases
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helium
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He-3 (1)
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North America
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Appalachians
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Appalachian Plateau (1)
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Cumberland Plateau (1)
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Valley and Ridge Province (1)
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Rocky Mountains
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oxygen
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soils (3)
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United States
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California
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Butte County California (1)
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Kern County California (1)
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Lassen County California (1)
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Plumas County California (1)
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Tulare County California (1)
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Colorado
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Gunnison River (1)
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Idaho (1)
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Idaho Batholith (1)
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Kentucky
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Edmonson County Kentucky (4)
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Kentucky River (2)
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Nevada (1)
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Ohio River basin (2)
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Oregon
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Lane County Oregon (1)
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Tennessee
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Hardin County Tennessee (1)
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Tennessee River (1)
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U. S. Rocky Mountains
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Sangre de Cristo Mountains (1)
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Uncompahgre Uplift (1)
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Virginia
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sedimentary structures
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sediments
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sediments
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clastic sediments
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gravel (3)
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till (1)
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marine sediments (1)
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soils
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soils (3)
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The Pliocene-to-Present Course of the Tennessee River
The interplay between physical and chemical erosion over glacial-interglacial cycles
Late Quaternary climatic controls on erosion rates and geomorphic processes in western Oregon, USA
Cosmogenic Nuclides and Erosion at the Watershed Scale
Abandonment of Unaweep Canyon (1.4–0.8 Ma), western Colorado: Effects of stream capture and anomalously rapid Pleistocene river incision
A cosmic trip: 25 years of cosmogenic nuclides in geology
Rock uplift rates in South Africa from isochron burial dating of fluvial and marine terraces
New incision rates along the Colorado River system based on cosmogenic burial dating of terraces: Implications for regional controls on Quaternary incision
Dating of Pliocene Colorado River sediments: Implications for cosmogenic burial dating and the evolution of the lower Colorado River
Cosmogenic burial ages reveal sediment reservoir dynamics along the Yellow River, China
Quantifying rock uplift rates using channel steepness and cosmogenic nuclide–determined erosion rates: Examples from northern and southern Italy
Beyond threshold hillslopes: Channel adjustment to base-level fall in tectonically active mountain ranges
Dynamic equilibrium among erosion, river incision, and coastal uplift in the northern and central Apennines, Italy
Abrupt glacial valley incision at 0.8 Ma dated from cave deposits in Switzerland
Multiple cosmogenic nuclides with different decay rates can be used to date exposure and burial of rocks over the timescales of radioactive decay. This paper reviews the development of such dating methods over the past ∼50 years, beginning with a historical perspective on early meteorite studies, and later focusing on recent examples in the terrestrial field using the 26 Al- 10 Be pair in quartz. Two classes of terrestrial applications are discussed in detail. The first involves the use of 26 Al and 10 Be in rock or sediment that has experienced a complex history of repeated exposure and burial. In these cases, the cosmogenic nuclides can only provide a minimum near-surface age. Examples include sediment from beneath desert sand dunes, and rocks from beneath cold-based glaciers. The second class of application uses 26 Al and 10 Be to date discrete burial events, in cases where sediment has experienced a simple history of exposure followed by rapid burial. Examples include cave sediments, alluvial deposits, and sediment buried beneath glacial till. Finally, the half-lives of 26 Al and 10 Be are discussed, with special attention given to discrepant estimates of the 10 Be half-life. It is shown that geologic data are consistent with either half-life estimate of 1.51 m.y. or 1.34 m.y., but more closely conform to the shorter half-life.
Rivers across unglaciated portions of the Appalachian Plateaus of Tennessee and Kentucky are deeply entrenched, almost without exception. Widespread gravel deposits on upland surfaces, combined with broad straths and terraces inset beneath the highlands indicate a history of base-level stability punctuated by periods of river incision. Determining the exact timing of episodic incision historically has been difficult due to a combination of unsuitable dating methods and poorly preserved surface materials. Recently, advances in analytical techniques have allowed researchers to constrain the incision history by utilizing the hydrologic link between multilevel cave systems and regional rivers. In this study, we date clastic sediments deposited in caves associated with the Cumberland River using cosmogenic 26 Al and 10 Be, and show that they correspond to: (1) deposition of upland (Lafayette-type) gravels between ca. 5.6 Ma and ca. 3.5 Ma; (2) initial incision of regional rivers into the Highland Rim after ca. 3.5 Ma; (3) development of the Parker strath during the interval between ca. 3.5 Ma and ca. 2 Ma; (4) incision of the Parker strath at ca. 2 Ma; (5) shorter cycles of incision after ca. 1.3 Ma associated with terraces above the modern floodplain; and (6) regional aggradation at ca. 0.8 Ma. Burial ages of cave sediments record more than 5 m.y. of incision history within the unglaciated Appalachian plateaus and constrain the time needed to develop multilevel cave systems on plateau margins.