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NARROW
GeoRef Subject
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all geography including DSDP/ODP Sites and Legs
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Arctic region
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Greenland
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East Greenland (6)
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Northern Greenland (7)
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Peary Land (2)
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Svalbard (1)
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Asia
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Siberia (1)
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Canada
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Eastern Canada
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Europe
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Western Europe
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United Kingdom
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fossils
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Graptolithina (1)
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Invertebrata
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Arthropoda
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Trilobita (2)
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Brachiopoda (1)
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Mollusca
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Hyolithes (2)
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microfossils
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problematic fossils (5)
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geologic age
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Paleozoic
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Cambrian
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lower Paleozoic (1)
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Ordovician
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Precambrian
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upper Precambrian
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metamorphic rocks
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turbidite (1)
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Primary terms
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Arctic region
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Greenland
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East Greenland (6)
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Northern Greenland (7)
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Peary Land (2)
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Svalbard (1)
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Asia
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Siberia (1)
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biogeography (2)
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Canada
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Eastern Canada
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Newfoundland and Labrador
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Labrador (1)
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Newfoundland (1)
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Europe
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Western Europe
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United Kingdom
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glacial geology (1)
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Invertebrata
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Trilobita (2)
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Brachiopoda (1)
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Mollusca
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Hyolithes (2)
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orogeny (1)
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paleoclimatology (1)
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paleoecology (1)
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paleogeography (2)
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paleontology (1)
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Paleozoic
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Cambrian
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Lower Cambrian (6)
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lower Paleozoic (1)
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Ordovician
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Silurian (1)
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plate tectonics (2)
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Precambrian
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upper Precambrian
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Marinoan (1)
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problematic fossils (5)
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sedimentary rocks
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clastic rocks
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tillite (1)
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tectonics (1)
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sedimentary rocks
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sedimentary rocks
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clastic rocks
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tillite (1)
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turbidite (1)
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sediments
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turbidite (1)
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Albert Heim Bjerge
Simplified geological maps of Ella Ø and Albert Heim Bjerge, Northeast Gree...
New early Cambrian sclerites of Lapworthella schodakensis from NE Greenland: advancements in knowledge of lapworthellid taxonomy, sclerite growth and scleritome organization
Early Ordovician (Skullrockian) trilobites of the Antiklinalbugt Formation, northeast Greenland, and their biostratigraphic significance
Figure 5. Hyolithellus Billings, 1871 from acid resistant residues of li...
Lithostratigraphic sections through the Antiklinalbugt Formation at Ella Ø ...
Figure 1 —Location and stratigraphy. 1, Map of Greenland with area of st...
Trilobite species range chart based on samples of Cowie and Adams (1957) ...
Simplified geological map of Greenland indicating the location of the study...
Triplicatella from the Bastion Formation, North-East Greenland. 2A–2K. T...
Bradoriids from the Bastion Formation (Cambrian Series 2), North-East Green...
Discinella micans (Billings, 1871 ) in external view. ( 1–6 ) Specimens f...
Discinella micans (Billings, 1871 ), malformed specimens. ( 1–9 ) Specime...
Discinella micans (Billings, 1871 ) in internal view. ( 1–8 ) Specimens f...
Hyolithellus in Life Position from the Lower Cambrian of North Greenland
SMALL SHELLY FAUNA FROM THE UPPER LOWER CAMBRIAN BASTION AND ELLA ISLAND FORMATIONS, NORTH-EAST GREENLAND
The problematic fossil Triplicatella from the Early Cambrian of Greenland, Canada, and Siberia
Mobergellans from the early Cambrian of Greenland and Labrador: new morphological details and implications for the functional morphology of mobergellans
Cambrian–Silurian development of the Laurentian margin of the Iapetus Ocean in Greenland and related areas
The Iapetus margin of Laurentia is preserved, with varying degrees of deformation, along a belt that extends for 1300 km along the eastern coast of Greenland, from Scoresby Sund in the south to Kronprins Christian Land at the northernmost extent of the Caledonian–Appalachian orogen. Along the length of the Greenland Caledonides, deformation is restricted to a single orogenic phase, the Scandian, at around 425 Ma, which represents the continent-continent collision of Laurentia and Baltica. The Lower Paleozoic stratigraphy can be closely correlated with the palinspastically contiguous terranes of NE Spitsbergen, Bjørnøya, and NW Scotland, and, farther to the south, that of western Newfoundland. In Greenland itself, Lower Paleozoic sediments are present in the foreland, parautochthon, and the highest allochthonous sheet of the orogen, the Franz Joseph allochthon. In the Franklinian Basin of eastern North Greenland, unconformity-bounded Lower Cambrian sediments can be correlated with the Sauk I sequence of cratonic North America. These Cambrian sediments are separated from younger units by a significant hiatus, the sub–Wandel Valley unconformity, but above that surface, the succession extends without major breaks from the major flooding event at the base of Sauk IV (Early Ordovician) through to the early Wenlock. The carbonate platform in this region foundered from late Llandovery time onward due to loading by thrust sheets, and turbidite deposition replaced platform carbonate deposition. Caledonian thrusts truncate the youngest preserved sediments, which are of early Wenlock age. The punctuated, attenuated stratigraphy seen in Kronprins Christian Land continues southward along the length of the parautochthon, through Lambert Land, Nørreland, and Dronning Louise Land, to a series of tectonic windows in the southern part of the Greenland Caledonides. In contrast to the stratigraphy seen in the parautochthon, the Franz Joseph allochthon contains one of the thickest Cambrian–Middle Ordovician successions in Laurentia, including a complete succession from Sauk I to Tippecanoe II.