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NARROW
GeoRef Subject
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all geography including DSDP/ODP Sites and Legs
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Caledonides (1)
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Canada
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Eastern Canada
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Maritime Provinces
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New Brunswick (1)
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Nova Scotia
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Cascade Range (1)
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Mexico
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North America
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Rocky Mountains
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U. S. Rocky Mountains
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United States
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Arizona
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Coconino County Arizona (2)
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Colorado
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Needle Mountains (1)
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Colorado Plateau (3)
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Four Corners (1)
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Idaho
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Bear Lake County Idaho (1)
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Oneida County Idaho (1)
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Montana
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New Mexico
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Oregon (2)
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Southwestern U.S. (1)
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U. S. Rocky Mountains
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Uinta Basin (1)
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Utah
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Box Elder County Utah (1)
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Cache County Utah (1)
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Kaiparowits Plateau (1)
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San Juan County Utah (1)
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San Rafael Swell (1)
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Washington (6)
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commodities
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metal ores
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mineral deposits, genesis (1)
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elements, isotopes
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hydrogen
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isotope ratios (3)
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metals
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lead (1)
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oxygen
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fossils
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Invertebrata
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geologic age
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Cenozoic
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Tertiary
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Columbia River Basalt Group (4)
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dacites (1)
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metamorphic rocks
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silicates
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Primary terms
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Canada
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Eastern Canada
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Maritime Provinces
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New Brunswick (1)
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Nova Scotia
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carbon
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C-13/C-12 (2)
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Cenozoic
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Quaternary
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Cordilleran ice sheet (2)
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Lake Missoula (3)
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lower Pleistocene (1)
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upper Pleistocene
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upper Wisconsinan (2)
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Tertiary
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Neogene
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hydrogen
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igneous rocks
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volcanic rocks
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basalts
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dacites (1)
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pyroclastics
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intrusions (3)
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Invertebrata
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Arthropoda
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Agnostida (1)
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Mollusca
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Porifera (1)
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isotopes
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deuterium (1)
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Hf-177/Hf-176 (1)
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O-18/O-16 (3)
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maps (1)
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Mesozoic
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Cretaceous
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Upper Cretaceous
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Turonian (1)
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Glen Canyon Group (1)
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Jurassic
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San Rafael Group (1)
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Upper Jurassic
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Morrison Formation (1)
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Triassic
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Moenkopi Formation (1)
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Chinle Formation (1)
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metal ores
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lead (1)
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orogeny (2)
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United States
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sedimentary rocks
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limestone (1)
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clastic rocks
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conglomerate (1)
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sedimentary structures
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sediments
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Cataract Gulch
An oxygen-isotope study of water-rock interaction in the granite of Cataract Gulch, western San Juan Mountains, Colorado
Monazite and xenotime petrochronologic constraints on four Proterozoic tectonic episodes and ca. 1705 Ma age of the Uncompahgre Formation, southwestern Colorado, USA
Photographs of outcrops and hand samples. (A) Hand sample of gneiss sample ...
Concordia and weighted mean diagrams for zircon laser ablation–inductively ...
Metal concentrations expressed as hazard quotients as a function of year sa...
Relation between streamflow and dissolved As, total Cu, total Pb, and disso...
Metal contamination and post-remediation recovery in the Boulder River watershed, Jefferson County, Montana
The timing of Missoula floods: Implications for the age of Grand Coulee (eastern Washington, USA)
Locations of the Spence Shale Lagerstätte: ( 1 ) map of the western USA sho...
Locations and stratigraphy of the Spence Shale Lagerstätte. ( a ) Map of th...
Postcaldera intrusive magmatism at the Platoro caldera complex, Southern Rocky Mountain volcanic field, Colorado, USA
The Spence Shale Lagerstätte: an important window into Cambrian biodiversity
Holocene debris flows on the Colorado Plateau: The influence of clay mineralogy and chemistry
Controls on hydrothermal fluid flow in caldera-hosted settings: Evidence from Lake City caldera, USA
Upper Paleozoic Rocks Exposed in Straight Wash Canyon, San Rafael Swell, Utah
Roads less travelled by—Pleistocene piracy in Washington’s northwestern Channeled Scabland
ABSTRACT The Pleistocene Okanogan lobe of Cordilleran ice in north-central Washington State dammed Columbia River to pond glacial Lake Columbia and divert the river south across one or another low spot along a 230-km-long drainage divide. When enormous Missoula floods from the east briefly engulfed the lake, water poured across a few such divide saddles. The grandest such spillway into the Channeled Scabland became upper Grand Coulee. By cutting headward to Columbia valley, upper Grand Coulee’s flood cataract opened a valve that then kept glacial Lake Columbia low and limited later floods into nearby Moses Coulee. Indeed few of the scores of last-glacial Missoula floods managed to reach it. Headward cutting of an inferred smaller cataract (Foster Coulee) had earlier lowered glacial Lake Columbia’s outlet. Such Scabland piracies explain a variety of field evidence assembled here: apparently successive outlets of glacial Lake Columbia, and certain megaflood features downcurrent to Wenatchee and Quincy basin. Ice-rafted erratics and the Pangborn bar of foreset gravel near Wenatchee record late Wisconsin flood(s) down Columbia valley as deep as 320 m. Fancher bar, 45 m higher than Pangborn bar, also has tall foreset beds—but its gravel is partly rotted and capped by thick calcrete, thus pre-Wisconsin age, perhaps greatly so. In western Quincy basin foreset beds of basaltic gravel dip east from Columbia valley into the basin—gravel also partly rotted and capped by thick calcrete, also pre-Wisconsin. Yet evidence of late Wisconsin eastward flow to Quincy basin is sparse. This sequence suggests that upper Grand Coulee had largely opened before down-Columbia megaflood(s) early in late Wisconsin time. A drift-obscured area of the Waterville Plateau near Badger Wells is the inconspicuous divide saddle between Columbia tributary Foster Creek drainage and Moses Coulee drainage. Before flood cataracts had opened upper Grand Coulee or Foster Coulee, and while Okanogan ice blocked the Columbia but not Foster Creek, glacial Lake Columbia (diverted Columbia River) drained over this saddle at about 654 m and down Moses Coulee. When glacial Lake Columbia stood at this high level so far west, Missoula floods swelling the lake could easily and deeply flood Moses Coulee. Once eastern Foster Coulee cataract had been cut through, and especially once upper Grand Coulee’s great cataract receded to Columbia valley, glacial Lake Columbia stood lower, and Moses Coulee became harder to flood. During the late Wisconsin (marine isotope stage [MIS] 2), only when Okanogan-lobe ice blocked the Columbia near Brewster to form a high lake could Missoula floodwater from glacial Lake Missoula rise enough to overflow into Moses Coulee—and then only in a few very largest Missoula floods. Moses Coulee’s main excavation must lie with pre-Wisconsin outburst floods (MIS 6 or much earlier)—before upper Grand Coulee’s cataract had receded to Columbia valley.