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NARROW
GeoRef Subject
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all geography including DSDP/ODP Sites and Legs
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North America
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Appalachians
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Blue Ridge Province (1)
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Piedmont (1)
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Southern Appalachians (4)
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Valley and Ridge Province (2)
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United States
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Alabama
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Cherokee County Alabama (1)
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Chilton County Alabama (1)
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Clay County Alabama (1)
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Cleburne County Alabama (1)
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Coosa County Alabama (1)
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Shelby County Alabama (1)
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Talladega County Alabama (1)
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Cincinnati Arch (1)
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Ohio
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Morrow County Ohio (1)
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Pine Mountain Window (1)
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Talladega Front (3)
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Tennessee (1)
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Virginia
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Tazewell County Virginia (2)
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Wythe County Virginia (5)
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commodities
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metals
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lead (1)
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problematic fossils (1)
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thallophytes (2)
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geologic age
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Paleozoic
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Cambrian
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Conasauga Group (1)
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Lower Cambrian
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Chilhowee Group (2)
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Rome Formation (5)
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Shady Dolomite (15)
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Copper Ridge Dolomite (1)
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Knox Group (2)
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lower Paleozoic
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Rose Run Sandstone (1)
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Ordovician
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Sauk Sequence (1)
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Talladega Group (1)
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Precambrian
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upper Precambrian
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Proterozoic
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Neoproterozoic (2)
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metamorphic rocks
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slates (1)
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minerals
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carbonates
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minerals (1)
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barite (2)
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Primary terms
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biogeography (1)
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isotopes
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metal ores
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metals
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metamorphic rocks
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quartzites (1)
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slates (1)
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metasomatism (2)
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mineral deposits, genesis (1)
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mineral resources (1)
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mineralogy (1)
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minerals (1)
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North America
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Appalachians
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Blue Ridge Province (1)
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Piedmont (1)
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Southern Appalachians (4)
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Valley and Ridge Province (2)
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paleobotany (1)
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paleogeography (2)
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paleontology (2)
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Paleozoic
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Cambrian
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Conasauga Group (1)
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Lower Cambrian
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Chilhowee Group (2)
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Rome Formation (5)
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Shady Dolomite (15)
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Middle Cambrian (2)
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Upper Cambrian
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Copper Ridge Dolomite (1)
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Mount Simon Sandstone (1)
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Knox Group (2)
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lower Paleozoic
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Rose Run Sandstone (1)
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Ordovician
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Middle Ordovician (1)
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Sauk Sequence (1)
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Talladega Group (1)
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paragenesis (1)
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petroleum
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petrology (1)
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Plantae
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plate tectonics (2)
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Precambrian
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upper Precambrian
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Proterozoic
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Neoproterozoic (2)
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problematic fossils (1)
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reefs (3)
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sea-level changes (4)
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sedimentary petrology (3)
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shale (2)
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sedimentary structures
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algal mounds (1)
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girvanella (1)
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sedimentation (5)
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stratigraphy (4)
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structural geology (4)
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sulfur
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S-34/S-32 (1)
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tectonics (6)
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thallophytes (2)
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United States
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Alabama
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Cherokee County Alabama (1)
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Chilton County Alabama (1)
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Clay County Alabama (1)
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Cleburne County Alabama (1)
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Coosa County Alabama (1)
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Shelby County Alabama (1)
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Talladega County Alabama (1)
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Cincinnati Arch (1)
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Ohio
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Morrow County Ohio (1)
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Pine Mountain Window (1)
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Talladega Front (3)
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Tennessee (1)
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Virginia
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Carroll County Virginia (1)
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Tazewell County Virginia (2)
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Wythe County Virginia (5)
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waste disposal (1)
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rock formations
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Ocoee Supergroup (1)
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sedimentary rocks
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sedimentary rocks
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carbonate rocks
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boundstone (2)
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dolostone (2)
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limestone (2)
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packstone (1)
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chemically precipitated rocks
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evaporites (1)
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clastic rocks
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conglomerate (1)
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sandstone (2)
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shale (2)
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siltstone (2)
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volcaniclastics (1)
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sedimentary structures
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borings (1)
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sedimentary structures
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biogenic structures
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algal structures
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algal mounds (1)
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girvanella (1)
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sediments
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volcaniclastics (1)
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Shady Dolomite
Southern Appalachian Laurentian margin initial drift-facies sequences: Implications for margin evolution
In the Appalachian orogen, the Neoproterozoic(?)–Lower Cambrian Chilhowee Group represents the initial drift-facies deposits along and across the eastern Laurentian continental margin following rifting. In the Southern Appalachians, this group forms thrust sheets along the west flank of the Talladega–Blue Ridge belt. Where the base is unfaulted, it lies depositionally above Ocoee Supergroup rift-facies rocks or Grenville basement. Regionally, the Chilhowee grades up into the Lower Cambrian Shady Dolomite, the initial deposits of the marginwide Cambrian–Ordovician carbonate bank. Sequences more interior to the orogen, including the Kahatchee Mountain Group (Talladega belt), the Nantahala and Brasstown Formations (western Blue Ridge), and the Hollis Quartzite (Pine Mountain belt), are considered to be correlative with the Chilhowee based upon similarities in lithostratigraphic sequence, sequence stratigraphy, sandstone provenance, and paleocurrent studies. Assuming an autochthonous Pine Mountain window, palinspastic restorations of foreland thrusts suggest that the Chilhowee Group restores essentially astride that window, and Chilhowee-equivalent units in the Talladega–Blue Ridge belts, in turn, restore farther southeast. This places the respective sequences southeastward in the order of increasing thickness and depth to basement from the base of the carbonate bank facies, with units restored farthest southeast having the most distal marine characteristics. Retro-deformation of thrust belt structures and the Pine Mountain cover sequence restores the Kahatchee Mountain Group at least to the subsurface position of the Wiggins-Suwannee suture, the southeastern limit of Laurentian continental crust, indicating that this group's basement was subducted beneath Gondwanan or peri-Gondwanan crust, and that the basement of even more outboard Laurentian sequences (e.g., eastern Blue Ridge) was overridden even farther.
Sulfur isotope geochemistry of Southern Appalachian mississippi valley-type deposits
Carbonate ramp to rimmed shelf evolution: Lower to Middle Cambrian continental margin, Virginia Appalachians
Sedimentology of the Unicoi Formation in southern and central Virginia: Evidence for late Proterozoic to Early Cambrian rift-to-passive margin transition
New paleontologic evidence constraining the age and paleotectonic setting of the Talladega slate belt, southern Appalachians
Biota preserved within cavities in Cambrian Epiphyton mounds, upper Shady Dolomite, southwestern Virginia
Lower and Middle Cambrian Shady Dolomite Above the St. Clair Thrust Fault, Tazewell County, Virginia: ABSTRACT
Subsurface Stratigraphy and Structure of Sauk Sequence of Northern Ohio: ABSTRACT
Three-Dimensional Structural Interrelationships Within Cambrian-Ordovician Lithotectonic Unit of Central Appalachians: ABSTRACT
Fabrics of allochthonous reefal blocks, Shady Dolomite (Lower to Middle Cambrian), Virginia Appalachians
First record of Labyrinthus soraufi Kobluk from the southern Appalachians: Lower Cambrian Shady Dolomite, Virginia
Lower Cambrian metasediments of the Appalachian Valley and Ridge province, Alabama; possible relationship with adjacent rocks of the Talladega metamorphic belt
The Talladega belt in Alabama and Georgia is the northwesternmost belt of the Appalachian Piedmont metamorphic province. It contains low-rank metasediments and metavolcanics that have been thrust faulted onto Paleozoic sediments of the Valley and Ridge province via the Cartersville-Talladega fault system. The age of several formations in the southwestern part of the Talladega belt in Alabama has been determined to be Devonian, but controversy exists concerning the age of much of the rest of the belt. Another major problem has been the age and structure relationships of the Talladega belt to the Precambrian and Lower Cambrian rocks of the Blue Ridge province on strike with the Talladega belt to the northeast. In the Borden Springs area, Cleburne County, Alabama, nappes of the Lower Cambrian Weisner and Shady Formations rest on younger Paleozoic rocks immediately northwest of the Talladega belt. A sequence composed mainly of slates and quartzites characterized by graded beds lies between the Talladega belt and the nappes of Weisner and Shady. Distinctive lithologies within this sequence are found also within the Talladega belt near Borden Springs and also near the southwest end of the belt in Alabama within metasediments immediately below the Jumbo Dolomite of the Sylacauga Marble Group. Although the slate-quartzite sequence has been interpreted in recent years as being Ordovician to Devonian, detailed mapping in the Borden Springs area indicates that it is correlative with the Early Cambrian Weisner and Shady, although somewhat different in sedimentary aspect from Weisner and Shady in nappes to the west. Therefore, the Talladega belt may contain rocks at least as old as Early Cambrian and may be at least partly equivalent in age to rocks of the Blue Ridge province. The slate-quartzite sequence lies northwest, west, and southeast of an anticlinal region of younger Paleozoic sediments in western Georgia, over which it was thrust faulted. It thus forms an imbricated nappe sequence rooted, if at all, beneath the Piedmont province to the southeast.