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NARROW
GeoRef Subject
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all geography including DSDP/ODP Sites and Legs
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Channeled Scabland (1)
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Columbia River (1)
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North America (1)
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United States
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Columbia Plateau (1)
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Washington
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Grant County Washington (1)
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elements, isotopes
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halogens
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chlorine
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Cl-36 (1)
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isotopes
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radioactive isotopes
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Cl-36 (1)
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geochronology methods
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exposure age (1)
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optically stimulated luminescence (1)
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geologic age
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Cenozoic
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Quaternary
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Pleistocene
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Lake Missoula (1)
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Tertiary
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Neogene
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Miocene
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Columbia River Basalt Group (1)
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Primary terms
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Cenozoic
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Quaternary
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Pleistocene
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Lake Missoula (1)
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Tertiary
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Neogene
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Miocene
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Columbia River Basalt Group (1)
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geochronology (1)
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isotopes
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radioactive isotopes
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Cl-36 (1)
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North America (1)
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sediments (1)
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United States
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Columbia Plateau (1)
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Washington
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Grant County Washington (1)
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sediments
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sediments (1)
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ABSTRACT The Columbia River Basin (CRB) is home to the best studied examples of two of the most spectacular geologic processes on Earth and Mars: flood volcanism and catastrophic water floods. Additionally, features formed by a variety of eolian, glacial, tectonic, and mass-wasting processes can also be seen in the CRB. These terrains provide exceptional terrestrial analogs for the study of similar processes on Mars. This field guide describes four one-day trips out of Moses Lake, Washington, to observe a wide variety of Mars analogs.
Evidence for dune reactivation from GPR profiles on the Maputaland coastal plain, South Africa
Abstract The Maputaland area of northeastern South Africa is characterized by extensive dunefields which developed during polyphase reworking of regional aeolian cover sand from the Mid-Pleistocene to the Holocene. Extended parabolic dunes, many preserved only as wind-rift trailing limbs, as well as areas of sinuous crested dunes, hummocky dune systems and the high, composite, accretionary coastal barrier dune cordon are the dominant dune forms. There are few natural sections exposing the stratigraphic succession and unequivocal relative age relationships between dune systems are uncommon. A ground penetrating radar (GPR) survey of dunes and representative aeolian sand stratigraphic units was undertaken in order to investigate the internal structure of the different dune forms and identify stratigraphic relationships between buried sedimentary units. The GPR profiles revealed that the trailing limbs of almost all the parabolic dunes that were surveyed comprise stacked sand units, separated by low-angle reflections interpreted as bounding surfaces, which accumulated through polyphase vertical accretion. Most extended parabolic dunes are aligned north-south and the upper parts of the dunes are characterized by inclined reflections in GPR profile interpreted as large-scale sets of cross-stratification with apparent dips toward the west. A hummocky dune revealed cross-stratified aeolian sand superimposed on a truncated dune form and probably formed through deflation of pre-existing dunes. Using 100 MHz and 200 MHz antennae, it is clear that GPR is capable of imaging very fine sedimentary structures and buried erosional surfaces in the homogeneous aeolian sand of Maputaland. At some of the sites investigated, the buried sand units identified were sampled by hand-augering for infrared-stimulated luminescence dating. The age determinations on these samples suggest that vertical accretion of up to 7 m of sand occurred intermittently over variable time scales up to 25 000 years on some parabolic dune limbs during the Late Pleistocene. In some complex dunefields, adjacent dunes were mobilized at different times, suggesting that remobilization was localized. The implications of the complex internal structure and vertical accretion of extended parabolic dunes are discussed in the context of changes in vegetation cover and water table due to seasonal and short-term cyclical climate variations as well as long-term climate change patterns during the last glacial cycle and the Holocene.