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NARROW
GeoRef Subject
-
all geography including DSDP/ODP Sites and Legs
-
Africa
-
West Africa
-
Nigeria
-
Niger Delta (1)
-
-
-
-
Asia
-
Middle East
-
Zagros (1)
-
-
-
Atlantic Ocean (1)
-
Bear Creek valley (1)
-
Beaver Creek (1)
-
Canada
-
Western Canada
-
Alberta (1)
-
British Columbia (1)
-
Canadian Rocky Mountains (2)
-
-
-
Hunter Valley (1)
-
James River (2)
-
New River (1)
-
North America
-
Appalachian Basin (8)
-
Appalachians
-
Appalachian Plateau (20)
-
Blue Ridge Mountains (6)
-
Blue Ridge Province (16)
-
Carolina slate belt (2)
-
Central Appalachians (26)
-
Great Appalachian Valley (3)
-
Northern Appalachians (1)
-
Piedmont (19)
-
Shawangunk Mountains (1)
-
Southern Appalachians (23)
-
Valley and Ridge Province (174)
-
-
Eastern Overthrust Belt (2)
-
Gulf Coastal Plain (1)
-
Rocky Mountains
-
Canadian Rocky Mountains (2)
-
-
-
Pine Mountain Fault (2)
-
Pulaski Fault (4)
-
Saltville Fault (4)
-
South America
-
Amazonian Craton (1)
-
Argentina
-
Pampean Mountains (1)
-
-
-
United States
-
Alabama
-
Cherokee County Alabama (2)
-
Cleburne County Alabama (1)
-
Etowah County Alabama (1)
-
Shelby County Alabama (2)
-
Talladega County Alabama (2)
-
-
Allegheny Front (1)
-
Allegheny Plateau (2)
-
Atlantic Coastal Plain (3)
-
Black Warrior Basin (1)
-
Blue Ridge Mountains (6)
-
Brevard Zone (2)
-
Carolina Terrane (1)
-
Catskill Delta (2)
-
Charlotte Belt (1)
-
Cincinnati Arch (2)
-
Columbia Plateau (1)
-
District of Columbia (2)
-
Eastern U.S.
-
Southeastern U.S. (1)
-
-
Georgia
-
Floyd County Georgia (1)
-
Walker County Georgia (1)
-
-
Hudson Valley (2)
-
Kentucky (6)
-
Kings Mountain Belt (1)
-
Kiokee Belt (1)
-
Maryland
-
Allegany County Maryland (1)
-
Washington County Maryland (1)
-
-
Mississippi Valley (1)
-
Montana (1)
-
Nashville Dome (2)
-
New Jersey
-
Sussex County New Jersey (1)
-
Warren County New Jersey (2)
-
-
New York
-
Broome County New York (1)
-
Cortland County New York (1)
-
Orange County New York (1)
-
Schuyler County New York (1)
-
Sullivan County New York (1)
-
Ulster County New York
-
Shawangunk Mountains (1)
-
-
-
North Carolina (3)
-
Ohio (2)
-
Pennsylvania
-
Adams County Pennsylvania (1)
-
Bedford County Pennsylvania (1)
-
Berks County Pennsylvania (2)
-
Blair County Pennsylvania (4)
-
Cambria County Pennsylvania (1)
-
Centre County Pennsylvania (2)
-
Clinton County Pennsylvania (1)
-
Columbia County Pennsylvania (1)
-
Fayette County Pennsylvania (1)
-
Huntingdon County Pennsylvania (11)
-
Indiana County Pennsylvania (1)
-
Lackawanna County Pennsylvania (1)
-
Lancaster County Pennsylvania (1)
-
Lehigh County Pennsylvania (1)
-
Luzerne County Pennsylvania (2)
-
Lycoming County Pennsylvania (2)
-
Mifflin County Pennsylvania (2)
-
Monroe County Pennsylvania (1)
-
Northampton County Pennsylvania (1)
-
Northumberland County Pennsylvania (1)
-
Schuylkill County Pennsylvania (1)
-
Snyder County Pennsylvania (1)
-
Somerset County Pennsylvania (1)
-
Union County Pennsylvania (1)
-
York County Pennsylvania (1)
-
-
Potomac River (2)
-
Potomac River basin (1)
-
Pulaski thrust sheet (1)
-
Shenandoah Valley (2)
-
Susquehanna River (2)
-
Susquehanna River basin (3)
-
Talladega Front (1)
-
Tennessee
-
Anderson County Tennessee (1)
-
Blount County Tennessee (1)
-
Carter County Tennessee (1)
-
Claiborne County Tennessee (1)
-
Cumberland County Tennessee (1)
-
Giles County Tennessee (1)
-
Grainger County Tennessee (4)
-
Greene County Tennessee (1)
-
Hamblen County Tennessee (1)
-
Hancock County Tennessee (1)
-
Hawkins County Tennessee (1)
-
Knox County Tennessee (3)
-
Monroe County Tennessee (1)
-
Putnam County Tennessee (1)
-
Sequatchie Valley (1)
-
Sullivan County Tennessee (1)
-
Unicoi County Tennessee (1)
-
Washington County Tennessee (1)
-
White County Tennessee (1)
-
-
Tennessee River (1)
-
Virginia
-
Albemarle County Virginia (2)
-
Augusta County Virginia (2)
-
Bath County Virginia (5)
-
Bland County Virginia (1)
-
Botetourt County Virginia (1)
-
Craig County Virginia (1)
-
Giles County Virginia (4)
-
Henrico County Virginia (1)
-
Highland County Virginia (6)
-
Lee County Virginia (1)
-
Louisa County Virginia (1)
-
Madison County Virginia (1)
-
Montgomery County Virginia (3)
-
Nelson County Virginia (1)
-
Pulaski County Virginia (2)
-
Richmond Virginia (1)
-
Roanoke County Virginia (1)
-
Rockbridge County Virginia (1)
-
Rockingham County Virginia (1)
-
Shenandoah County Virginia (1)
-
Smyth County Virginia (2)
-
Waynesboro Virginia (1)
-
Wythe County Virginia (1)
-
-
West Virginia
-
Berkeley County West Virginia (1)
-
Grant County West Virginia (1)
-
Hampshire County West Virginia (2)
-
Hardy County West Virginia (2)
-
Mineral County West Virginia (2)
-
Monroe County West Virginia (1)
-
Morgan County West Virginia (2)
-
Pendleton County West Virginia (3)
-
Pocahontas County West Virginia (1)
-
Preston County West Virginia (1)
-
Randolph County West Virginia (1)
-
Upshur County West Virginia (1)
-
-
-
-
commodities
-
barite deposits (1)
-
brines (4)
-
energy sources (7)
-
marble deposits (1)
-
metal ores
-
copper ores (1)
-
lead-zinc deposits (1)
-
zinc ores (1)
-
-
mineral deposits, genesis (2)
-
mineral exploration (1)
-
oil and gas fields (2)
-
petroleum
-
natural gas (9)
-
-
water resources (2)
-
-
elements, isotopes
-
carbon
-
C-13/C-12 (6)
-
organic carbon (1)
-
-
halogens
-
bromine
-
bromide ion (1)
-
-
chlorine
-
chloride ion (1)
-
-
-
hydrogen
-
D/H (2)
-
-
isotope ratios (9)
-
isotopes
-
radioactive isotopes
-
Al-26 (1)
-
Be-10 (1)
-
Pb-206/Pb-204 (2)
-
Pb-207/Pb-204 (1)
-
Pb-208/Pb-204 (1)
-
-
stable isotopes
-
C-13/C-12 (6)
-
D/H (2)
-
Nd-144/Nd-143 (1)
-
O-18/O-16 (7)
-
Pb-206/Pb-204 (2)
-
Pb-207/Pb-204 (1)
-
Pb-208/Pb-204 (1)
-
S-34/S-32 (2)
-
Sr-87/Sr-86 (3)
-
-
-
metals
-
alkali metals
-
potassium (1)
-
sodium (1)
-
-
alkaline earth metals
-
beryllium
-
Be-10 (1)
-
-
calcium (1)
-
magnesium (2)
-
strontium
-
Sr-87/Sr-86 (3)
-
-
-
aluminum
-
Al-26 (1)
-
-
iron (1)
-
lead
-
Pb-206/Pb-204 (2)
-
Pb-207/Pb-204 (1)
-
Pb-208/Pb-204 (1)
-
-
manganese (1)
-
rare earths
-
neodymium
-
Nd-144/Nd-143 (1)
-
-
-
-
oxygen
-
O-18/O-16 (7)
-
-
sulfur
-
S-34/S-32 (2)
-
-
-
fossils
-
burrows (1)
-
Chordata
-
Vertebrata
-
Tetrapoda
-
Amphibia
-
Labyrinthodontia (1)
-
-
-
-
-
Graptolithina (2)
-
ichnofossils (4)
-
Invertebrata
-
Archaeocyatha (1)
-
Arthropoda
-
Mandibulata
-
Crustacea (1)
-
-
Trilobitomorpha
-
Trilobita
-
Agnostida (1)
-
-
-
-
Brachiopoda
-
Articulata
-
Rhynchonellida (1)
-
Spiriferida
-
Atrypidae (1)
-
-
-
-
Bryozoa (2)
-
Echinodermata
-
Crinozoa
-
Crinoidea (2)
-
-
-
Mollusca
-
Bivalvia (1)
-
-
-
microfossils
-
Conodonta (1)
-
-
Plantae
-
algae (1)
-
-
problematic fossils (2)
-
thallophytes (1)
-
tracks (1)
-
-
geochronology methods
-
(U-Th)/He (2)
-
Ar/Ar (1)
-
K/Ar (3)
-
paleomagnetism (5)
-
Rb/Sr (2)
-
Th/U (1)
-
U/Pb (2)
-
-
geologic age
-
Cenozoic
-
Quaternary
-
Pleistocene
-
upper Pleistocene
-
Wisconsinan (1)
-
-
-
-
Tertiary
-
Paleogene
-
Eocene (4)
-
Oligocene (1)
-
-
-
-
Mesozoic
-
Jurassic (1)
-
Triassic (3)
-
-
Paleozoic
-
Bedford Shale (1)
-
Berea Sandstone (1)
-
Cambrian
-
Conasauga Group (7)
-
Lower Cambrian
-
Chilhowee Group (2)
-
Rome Formation (5)
-
Shady Dolomite (2)
-
-
Middle Cambrian (2)
-
Upper Cambrian
-
Copper Ridge Dolomite (3)
-
Maynardville Limestone (1)
-
-
-
Carboniferous
-
Mississippian
-
Lower Mississippian
-
Pocono Formation (2)
-
-
Price Formation (1)
-
Sunbury Shale (1)
-
Upper Mississippian
-
Bangor Limestone (1)
-
Chesterian (1)
-
Hartselle Sandstone (1)
-
Mauch Chunk Formation (3)
-
-
-
Pennsylvanian
-
Lower Pennsylvanian (1)
-
Pottsville Group (4)
-
Upper Pennsylvanian (1)
-
-
Upper Carboniferous (1)
-
-
Catskill Formation (4)
-
Chattanooga Shale (2)
-
Devonian
-
Genesee Group (1)
-
Lower Devonian
-
Oriskany Sandstone (4)
-
-
Middle Devonian
-
Hamilton Group (5)
-
Mahantango Formation (4)
-
Marcellus Shale (7)
-
Onondaga Limestone (1)
-
Tully Limestone (1)
-
-
Upper Devonian
-
Brallier Shale (4)
-
Chemung Formation (2)
-
Huron Member (1)
-
-
-
Helderberg Group (2)
-
Keyser Limestone (1)
-
Knox Group (8)
-
lower Paleozoic
-
Ashe Formation (1)
-
Conococheague Formation (3)
-
-
Ordovician
-
Chickamauga Group (2)
-
Lower Ordovician
-
Beekmantown Group (1)
-
-
Martinsburg Formation (4)
-
Middle Ordovician
-
Deicke Bentonite Bed (1)
-
Millbrig Bentonite Bed (1)
-
Whiterockian (1)
-
-
Trenton Group (2)
-
Upper Ordovician
-
Cincinnatian (1)
-
Juniata Formation (2)
-
Mohawkian (2)
-
Reedsville Formation (2)
-
Sandbian (1)
-
Trentonian (2)
-
-
-
Permian
-
Lower Permian (1)
-
-
Shawangunk Formation (2)
-
Silurian
-
Clinch Sandstone (1)
-
Lower Silurian
-
Tuscarora Formation (6)
-
-
Middle Silurian
-
Clinton Group (1)
-
McKenzie Formation (1)
-
Rose Hill Formation (2)
-
-
Upper Silurian
-
Bloomsburg Formation (4)
-
Cayugan
-
Tonoloway Limestone (1)
-
-
Salina Group (2)
-
-
-
upper Paleozoic (4)
-
-
Precambrian
-
Archean (1)
-
Catoctin Formation (2)
-
upper Precambrian
-
Proterozoic
-
Mesoproterozoic (2)
-
Neoproterozoic
-
Lynchburg Formation (1)
-
-
-
-
-
-
igneous rocks
-
igneous rocks
-
plutonic rocks
-
diabase (1)
-
granites
-
felsite (1)
-
-
-
volcanic rocks
-
adakites (1)
-
andesites (1)
-
basalts
-
olivine basalt (1)
-
-
-
-
-
metamorphic rocks
-
K-bentonite (2)
-
metamorphic rocks
-
cataclasites (1)
-
gneisses (1)
-
metasedimentary rocks (4)
-
quartzites (1)
-
slates (2)
-
-
-
minerals
-
carbonates
-
calcite (4)
-
dolomite (5)
-
-
K-bentonite (2)
-
minerals (3)
-
oxides
-
iron oxides (1)
-
-
phosphates
-
apatite (1)
-
-
silicates
-
orthosilicates
-
nesosilicates
-
zircon group
-
zircon (4)
-
-
-
-
sheet silicates
-
mica group
-
biotite (1)
-
-
-
-
sulfates
-
barite (1)
-
-
sulfides
-
pyrite (1)
-
pyrrhotite (1)
-
sphalerite (1)
-
-
-
Primary terms
-
absolute age (9)
-
Africa
-
West Africa
-
Nigeria
-
Niger Delta (1)
-
-
-
-
Asia
-
Middle East
-
Zagros (1)
-
-
-
Atlantic Ocean (1)
-
barite deposits (1)
-
biogeography (1)
-
brines (4)
-
Canada
-
Western Canada
-
Alberta (1)
-
British Columbia (1)
-
Canadian Rocky Mountains (2)
-
-
-
carbon
-
C-13/C-12 (6)
-
organic carbon (1)
-
-
catalogs (1)
-
Cenozoic
-
Quaternary
-
Pleistocene
-
upper Pleistocene
-
Wisconsinan (1)
-
-
-
-
Tertiary
-
Paleogene
-
Eocene (4)
-
Oligocene (1)
-
-
-
-
Chordata
-
Vertebrata
-
Tetrapoda
-
Amphibia
-
Labyrinthodontia (1)
-
-
-
-
-
clay mineralogy (1)
-
conservation (1)
-
crust (9)
-
crystal growth (3)
-
crystal structure (1)
-
dams (1)
-
data processing (1)
-
deformation (15)
-
diagenesis (12)
-
earthquakes (9)
-
ecology (1)
-
economic geology (13)
-
energy sources (7)
-
engineering geology (2)
-
faults (61)
-
folds (44)
-
foliation (6)
-
foundations (1)
-
fractures (22)
-
geochemistry (9)
-
geochronology (2)
-
geomorphology (11)
-
geophysical methods (14)
-
geosynclines (1)
-
glacial geology (2)
-
government agencies
-
survey organizations (1)
-
-
Graptolithina (2)
-
ground water (10)
-
heat flow (2)
-
hydrogen
-
D/H (2)
-
-
hydrogeology (1)
-
hydrology (8)
-
ichnofossils (4)
-
igneous rocks
-
plutonic rocks
-
diabase (1)
-
granites
-
felsite (1)
-
-
-
volcanic rocks
-
adakites (1)
-
andesites (1)
-
basalts
-
olivine basalt (1)
-
-
-
-
inclusions
-
fluid inclusions (12)
-
-
intrusions (4)
-
Invertebrata
-
Archaeocyatha (1)
-
Arthropoda
-
Mandibulata
-
Crustacea (1)
-
-
Trilobitomorpha
-
Trilobita
-
Agnostida (1)
-
-
-
-
Brachiopoda
-
Articulata
-
Rhynchonellida (1)
-
Spiriferida
-
Atrypidae (1)
-
-
-
-
Bryozoa (2)
-
Echinodermata
-
Crinozoa
-
Crinoidea (2)
-
-
-
Mollusca
-
Bivalvia (1)
-
-
-
isotopes
-
radioactive isotopes
-
Al-26 (1)
-
Be-10 (1)
-
Pb-206/Pb-204 (2)
-
Pb-207/Pb-204 (1)
-
Pb-208/Pb-204 (1)
-
-
stable isotopes
-
C-13/C-12 (6)
-
D/H (2)
-
Nd-144/Nd-143 (1)
-
O-18/O-16 (7)
-
Pb-206/Pb-204 (2)
-
Pb-207/Pb-204 (1)
-
Pb-208/Pb-204 (1)
-
S-34/S-32 (2)
-
Sr-87/Sr-86 (3)
-
-
-
land use (1)
-
lineation (1)
-
mantle (1)
-
maps (2)
-
marble deposits (1)
-
Mesozoic
-
Jurassic (1)
-
Triassic (3)
-
-
metal ores
-
copper ores (1)
-
lead-zinc deposits (1)
-
zinc ores (1)
-
-
metals
-
alkali metals
-
potassium (1)
-
sodium (1)
-
-
alkaline earth metals
-
beryllium
-
Be-10 (1)
-
-
calcium (1)
-
magnesium (2)
-
strontium
-
Sr-87/Sr-86 (3)
-
-
-
aluminum
-
Al-26 (1)
-
-
iron (1)
-
lead
-
Pb-206/Pb-204 (2)
-
Pb-207/Pb-204 (1)
-
Pb-208/Pb-204 (1)
-
-
manganese (1)
-
rare earths
-
neodymium
-
Nd-144/Nd-143 (1)
-
-
-
-
metamorphic rocks
-
cataclasites (1)
-
gneisses (1)
-
metasedimentary rocks (4)
-
quartzites (1)
-
slates (2)
-
-
metamorphism (4)
-
mineral deposits, genesis (2)
-
mineral exploration (1)
-
mineralogy (1)
-
minerals (3)
-
mining geology (2)
-
North America
-
Appalachian Basin (8)
-
Appalachians
-
Appalachian Plateau (20)
-
Blue Ridge Mountains (6)
-
Blue Ridge Province (16)
-
Carolina slate belt (2)
-
Central Appalachians (26)
-
Great Appalachian Valley (3)
-
Northern Appalachians (1)
-
Piedmont (19)
-
Shawangunk Mountains (1)
-
Southern Appalachians (23)
-
Valley and Ridge Province (174)
-
-
Eastern Overthrust Belt (2)
-
Gulf Coastal Plain (1)
-
Rocky Mountains
-
Canadian Rocky Mountains (2)
-
-
-
oil and gas fields (2)
-
orogeny (16)
-
oxygen
-
O-18/O-16 (7)
-
-
paleobotany (1)
-
paleoecology (4)
-
paleogeography (9)
-
paleomagnetism (5)
-
paleontology (4)
-
Paleozoic
-
Bedford Shale (1)
-
Berea Sandstone (1)
-
Cambrian
-
Conasauga Group (7)
-
Lower Cambrian
-
Chilhowee Group (2)
-
Rome Formation (5)
-
Shady Dolomite (2)
-
-
Middle Cambrian (2)
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Upper Cambrian
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Copper Ridge Dolomite (3)
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Maynardville Limestone (1)
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Carboniferous
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Mississippian
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Lower Mississippian
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Pocono Formation (2)
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Price Formation (1)
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Sunbury Shale (1)
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Upper Mississippian
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Bangor Limestone (1)
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Chesterian (1)
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Hartselle Sandstone (1)
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Mauch Chunk Formation (3)
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Pennsylvanian
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Lower Pennsylvanian (1)
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Pottsville Group (4)
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Upper Pennsylvanian (1)
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Upper Carboniferous (1)
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Catskill Formation (4)
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Chattanooga Shale (2)
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Devonian
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Genesee Group (1)
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Lower Devonian
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Oriskany Sandstone (4)
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Middle Devonian
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Hamilton Group (5)
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Mahantango Formation (4)
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Marcellus Shale (7)
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Onondaga Limestone (1)
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Tully Limestone (1)
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Upper Devonian
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Brallier Shale (4)
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Chemung Formation (2)
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Huron Member (1)
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Helderberg Group (2)
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Keyser Limestone (1)
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Knox Group (8)
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lower Paleozoic
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Ashe Formation (1)
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Conococheague Formation (3)
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Ordovician
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Chickamauga Group (2)
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Lower Ordovician
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Beekmantown Group (1)
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Martinsburg Formation (4)
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Middle Ordovician
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Deicke Bentonite Bed (1)
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Millbrig Bentonite Bed (1)
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Whiterockian (1)
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Trenton Group (2)
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Upper Ordovician
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Cincinnatian (1)
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Juniata Formation (2)
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Mohawkian (2)
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Reedsville Formation (2)
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Sandbian (1)
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Trentonian (2)
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Permian
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Lower Permian (1)
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Shawangunk Formation (2)
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Silurian
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Clinch Sandstone (1)
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Lower Silurian
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Tuscarora Formation (6)
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Middle Silurian
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Clinton Group (1)
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McKenzie Formation (1)
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Rose Hill Formation (2)
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Upper Silurian
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Bloomsburg Formation (4)
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Cayugan
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Tonoloway Limestone (1)
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Salina Group (2)
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upper Paleozoic (4)
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paragenesis (5)
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petroleum
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natural gas (9)
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petrology (4)
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phase equilibria (1)
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Plantae
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algae (1)
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plate tectonics (7)
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pollution (2)
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Precambrian
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Archean (1)
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Catoctin Formation (2)
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upper Precambrian
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Proterozoic
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Mesoproterozoic (2)
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Neoproterozoic
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Lynchburg Formation (1)
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problematic fossils (2)
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reclamation (1)
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reefs (2)
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remote sensing (3)
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reservoirs (1)
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roads (2)
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rock mechanics (3)
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sea water (1)
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sea-level changes (4)
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sedimentary petrology (10)
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sedimentary rocks
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carbonate rocks
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boundstone (1)
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dolostone (4)
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grainstone (2)
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limestone
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microbialite (1)
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packstone (2)
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wackestone (1)
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chemically precipitated rocks
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chert (1)
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evaporites (1)
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ironstone (1)
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clastic rocks
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bentonite (2)
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black shale (5)
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claystone (1)
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conglomerate (2)
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graywacke (1)
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mudstone (1)
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orthoquartzite (1)
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red beds (3)
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sandstone (9)
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shale (9)
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siltstone (5)
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coal
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anthracite (2)
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oil shale (1)
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sedimentary structures
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biogenic structures
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banks (1)
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stromatolites (1)
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planar bedding structures
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bedding (3)
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cross-bedding (2)
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cross-laminations (1)
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imbrication (1)
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secondary structures
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concretions (1)
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stylolites (3)
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sedimentation (14)
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sediments
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clastic sediments
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alluvium (4)
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boulders (1)
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colluvium (1)
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seismology (6)
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slope stability (3)
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soil mechanics (1)
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soils (6)
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South America
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Amazonian Craton (1)
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Argentina
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Pampean Mountains (1)
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springs (3)
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stratigraphy (16)
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structural analysis (14)
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structural geology (45)
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sulfur
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S-34/S-32 (2)
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tectonics
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neotectonics (2)
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salt tectonics (2)
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tectonophysics (3)
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thallophytes (1)
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thermal waters (1)
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United States
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Alabama
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Cherokee County Alabama (2)
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Cleburne County Alabama (1)
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Etowah County Alabama (1)
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Shelby County Alabama (2)
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Talladega County Alabama (2)
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Allegheny Front (1)
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Black Warrior Basin (1)
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Blue Ridge Mountains (6)
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Brevard Zone (2)
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Eastern U.S.
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Georgia
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Maryland
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North Carolina (3)
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Pennsylvania
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Potomac River (2)
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Potomac River basin (1)
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Shenandoah Valley (2)
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Susquehanna River (2)
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Susquehanna River basin (3)
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Talladega Front (1)
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Tennessee
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Anderson County Tennessee (1)
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Grainger County Tennessee (4)
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Knox County Tennessee (3)
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Putnam County Tennessee (1)
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Sequatchie Valley (1)
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Tennessee River (1)
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Virginia
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Albemarle County Virginia (2)
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West Virginia
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Upshur County West Virginia (1)
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water resources (2)
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weathering (2)
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well-logging (2)
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rock formations
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Lincolnshire Limestone (1)
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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 (1)
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dolostone (4)
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grainstone (2)
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limestone
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microbialite (1)
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packstone (2)
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wackestone (1)
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chemically precipitated rocks
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chert (1)
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evaporites (1)
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ironstone (1)
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clastic rocks
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bentonite (2)
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black shale (5)
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claystone (1)
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conglomerate (2)
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graywacke (1)
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mudstone (1)
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orthoquartzite (1)
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red beds (3)
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sandstone (9)
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shale (9)
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siltstone (5)
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coal
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anthracite (2)
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oil shale (1)
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siliciclastics (5)
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sedimentary structures
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burrows (1)
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channels (3)
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sedimentary structures
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biogenic structures
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banks (1)
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stromatolites (1)
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planar bedding structures
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bedding (3)
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cross-bedding (2)
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cross-laminations (1)
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imbrication (1)
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secondary structures
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concretions (1)
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stylolites (3)
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tracks (1)
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sediments
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sediments
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clastic sediments
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alluvium (4)
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boulders (1)
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colluvium (1)
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siliciclastics (5)
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soils
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paleosols (1)
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soils (6)
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Valley and Ridge Province
Detrital zircon geothermochronology reveals pre-Alleghanian exhumation of regional Mississippian sediment sources in the southern Appalachian Valley and Ridge Province
Spatially variable syn- and post-Alleghanian exhumation of the central Appalachian Mountains from zircon (U-Th)/He thermochronology
Documenting the geometry and magnitude of shortening at the Allegheny Front: Lycoming County, Pennsylvania, United States
Common Spring Types in the Valley and Ridge Province: There Is More than Karst
Prepared in conjunction with the GSA Southeastern and Northeastern Sections Joint Meeting in Reston, Virginia, the four field trips in this guide explore various locations in Virginia, Maryland, and West Virginia. The physiographic provinces include the Piedmont, the Blue Ridge, the Valley and Ridge, and the Allegheny Plateau of the Appalachian Basin. The sites exhibit a wide range of igneous, metamorphic, and sedimentary rocks, as well as rocks with a wide range of geologic ages from the Mesoproterozoic to the Paleozoic. One of the trips is to a well-known cave system in West Virginia. We hope that this guidebook provides new motivation for geologists to examine rocks in situ and to discuss ideas with colleagues in the field.
A new landslide inventory and improved susceptibility model for northeastern Pennsylvania
Contemporary fluvial geomorphology and suspended sediment budget of the partly confined, mixed bedrock-alluvial South River, Virginia, USA
ABSTRACT This field guide highlights the Paleozoic geology of the Knoxville, Tennessee, area, framed in the context of the historic, halcyon days of Knox County’s marble industry and the railroads built to serve the area’s many limestone quarries and mills. The Three Rivers Rambler excursion train (the “Rambler”) is pulled by an 1890 “Consolidation” steam locomotive, which has been restored and is now operated by the Knoxville & Holston River Railroad Co., Inc. The Rambler route follows the north bank of the Tennessee River; passes through a sequence of Lower and Middle Ordovician carbonates, shales, and sandstones of the Knox and Chickamauga Groups; crosses the High Bridge at the confluence of the Holston and French Broad Rivers; and ends near Marbledale Quarry before returning to Knoxville. The two geologic groups are dominated by carbonates and lie in the syncline that contained most of the commercial marble that was quarried in the Knoxville area for the past 150 years. Exposures of the Holston Formation, a limestone commercially referred to as Holston [M]arble, were excavated to build the railroad ~125 years ago. It is possible to observe four of the seven formations making up the Knox and Chickamauga Groups along the route, but the outcrops are not accessible during typical railroad operations or by automobile. Arrangements were made for a field trip during the 2018 Geological Society of America Southeastern Section meeting, and this guide provides details for four selected exposures between Knoxville and the Forks of the River Marble District, with three optional stops. Only during the field trip, passengers will be able to disembark the train to examine carbonate and shale outcrops, structures, and discuss facies relationships of the foreland basin bryozoan reef deposits along the western flank of the Taconic (Sevier) foredeep. In addition to the local geology, this field guide describes the key role of railroads in the development of the Knox County marble industry, the history of what is today the Knoxville & Holston River Railroad, a corporate descendent of the 1887 Knoxville Belt Railroad Company, and the Tennessee Marble industry.
Quaternary faulting along the Dandridge-Vonore fault zone in the Eastern Tennessee seismic zone
ABSTRACT This field guide describes three accessible sites along the Dandridge-Vonore fault zone in the Eastern Tennessee seismic zone. These sites reveal bedrock faulted against Quaternary river sediments, including (1) a thrust fault on the Little River near Alcoa, Tennessee; (2) a series of thrust faults exposed in a drainage ditch that thrust Conasauga Shale against Quaternary colluvium in the footwall; and (3) a normal fault at Tellico Lake near Vonore, Tennessee, with Quaternary sediments faulted against Conasauga Shale.
Channel Geomorphic Evolution After Dam Removal: Is Scale Important?
Geologic controls on cave development in Burnsville Cove, Bath and Highland Counties, Virginia
Abstract Burnsville Cove in Bath and Highland Counties (Virginia, USA) is a karst region in the Valley and Ridge Province of the Appalachian Mountains. The region contains many caves in Silurian to Devonian limestone, and is well suited for examining geologic controls on cave location and cave passage morphology. In Burnsville Cove, many caves are located preferentially near the axes of synclines and anticlines. For example, Butler Cave is an elongate cave where the trunk channel follows the axis of Sinking Creek syncline and most of the side passages follow joints at right angles to the syncline axis. In contrast, the Water Sinks Subway Cave, Owl Cave, and Helictite Cave have abundant maze patterns, and are located near the axis of Chestnut Ridge anticline. The maze patterns may be related to fact that the anticline axis is the site of the greatest amount of flexure, leading to more joints and (or) greater enlargement of joints. Many of the larger caves of Burnsville Cove (e.g., Breathing Cave, Butler Cave-Sinking Creek Cave System, lower parts of the Water Sinks Cave System) are developed in the Silurian Tonoloway Limestone, the stratigraphic unit with the greatest surface exposure in the area. Other caves are developed in the Silurian to Devonian Keyser Limestone of the Helderberg Group (e.g., Owl Cave, upper parts of the Water Sinks Cave System) and in the Devonian Shriver Chert and (or) Licking Creek Limestone of the Helderberg Group (e.g., Helictite Cave). Within the Tonoloway Limestone, the larger caves are developed in the lower member of the Tonoloway Limestone immediately below a bed of silica-cemented sandstone. In contrast, the larger caves in the Keyser Limestone are located preferentially in limestone beds containing stromatoporoid reefs, and some of the larger caves in the Licking Creek Limestone are located in beds of cherty limestone below the Devonian Oris-kany Sandstone. Geologic controls on cave passage morphology include joints, bedding planes, and folds. The influence of joints results in tall and narrow cave passages, whereas the influence of bedding planes results in cave passages with flat ceilings and (or) floors. The influence of folds is less common, but a few cave passages follow fold axes and have distinctive arched ceilings.
Paleomagnetism of the Oatka Creek Member of the Marcellus Formation: A Devonian paleopole for North America
The Integration of Data Review, Remote Sensing and Ground Survey for a Regional-Level Karst Assessment
Insights into the mechanics of fault-propagation folding styles
Post-breakup lithosphere recycling below the U.S. East Coast: Evidence from adakitic rocks
We present here the first geochemical data from adakitic rocks from an extensional system—the U.S. East Coast rifted margin. Adakitic magmas are high-K melts that have been petrogenetically interpreted to be partial melts of subducting slab and/or lower crustal lithologies in delamination events. The adakitic rocks presented here are from a small volcanic region in the Valley and Ridge province in Virginia and were probably emplaced around the time of continent rupture and Central Atlantic magmatic province activity. They are bimodal in character (high Si and low Si) and have the typical high- and low-Si adakitic geochemical characteristics such as high K 2 O (up to 9.88 wt%) abundances, steep rare earth element patterns, and significantly high Sr (2473 ppm) and relatively low Rb (35 ppm) contents for high-Si adakitic rocks. The petrogenetic relation of these melts to partial melting of metagabbroic rocks (high-Si adakites) and interaction of these melts with ambient peridotite (low-Si adakites) suggests that the geodynamic process for the formation of the studied Jurassic central Virginia igneous rock succession is delamination of mantle lithosphere and lower crust below the volcanic rifted margin. We present with geodynamic models that negatively buoyant mantle lithosphere instabilities developed below this passive margin during continent rupture. After foundering, warm asthenosphere welled up and heated the lower crust of the East Coast margin. This lithosphere was interspersed in our study area with fragmented hydrated metamorphic mafic to ultramafic lithologies. In situ and/or dripping melting of such meta-igneous rocks reproduces the observed geochemistry of the studied high-Si adakitic rocks. Further recycling processes within the convecting mantle of delaminated floating fertile meta-igneous rock packages could be responsible for Atlantic melting anomalies such as the Azores or Bermuda.
A billion years of deformation in the central Appalachians: Orogenic processes and products
Abstract The central Appalachians form a classic orogen whose structural architecture developed during episodes of contractional, extensional, and transpressional deformation from the Proterozoic to the Mesozoic. These episodes include components of the Grenville orogenic cycle, the eastern breakup of Rodinia, Appalachian orogenic cycles, the breakup of Pangea, and the opening of the Atlantic Ocean basin. This field trip examines an array of rocks deformed via both ductile and brittle processes from the deep crust to the near-surface environment, and from the Mesoproterozoic to the present day. The trip commences in suspect terranes of the eastern Piedmont in central Virginia, and traverses northwestward across the Appalachian orogen through the thick-skinned Blue Ridge basement terrane, and into the thin-skinned fold-and-thrust belt of the Valley and Ridge geologic province. The traverse covers a range of deformation styles that developed over a vast span of geologic time: from high-grade metamorphic rocks deformed deep within the orogenic hinterland, to sedimentary rocks of the foreland that were folded, faulted, and cleaved in the late Paleozoic, to brittle extensional structures that overprint many of these rocks. Stops include: the damage zone of a major Mesozoic normal fault, composite fabrics in gneiss domes, transpressional mylonites that accommodated orogen-parallel elongation, contractional high-strain zones, and overpressured breccia zones in the Blue Ridge, as well as folds, thrusts, and back thrusts of the Alleghanian foreland.
Abstract The Mid-Atlantic region hosts some of the most mature karst landscapes in North America, developed in highly deformed rocks within the Piedmont and Valley and Ridge physiographic provinces. This guide describes a three-day excursion to examine karst development in various carbonate rocks by following Interstate 70 west from Baltimore across the eastern Piedmont, across the Frederick Valley, and into the Great Valley proper. The localities were chosen in order to examine the structural and lithological controls on karst feature development in marble, limestone, and dolostone rocks with an eye toward the implications for ancient landscape evolution, as well as for modern subsidence hazards. A number of caves will be visited, including two commercial caverns that reveal strikingly different histories of speleogenesis. Links between karst landscape development, hydrologic dynamics, and water resource sustainability will also be emphasized through visits to locally important springs. Recent work on quantitative dye tracing, spring water geochemistry, and groundwater modeling reveal the interaction between shallow and deep circulation of groundwater that has given rise to the modern karst landscape. Geologic and karst feature mapping conducted with the benefit of lidar data help reveal the strong bedrock structural controls on karst feature development, and illustrate the utility of geologic maps for assessment of sinkhole susceptibility.
Regional seismic-wave propagation from the M5.8 23 August 2011, Mineral, Virginia, earthquake
The M5.8 23 August 2011 Mineral, Virginia, earthquake was felt over nearly the entire eastern United States and was recorded by a wide array of seismic broadband instruments. The earthquake occurred ~200 km southeast of the boundary between two distinct geologic belts, the Piedmont and Blue Ridge terranes to the southeast and the Valley and Ridge Province to the northwest. At a dominant period of 3 s, coherent postcritical P-wave (i.e., direct longitudinal waves trapped in the crustal waveguide) arrivals persist to a much greater distance for propagation paths toward the northwest quadrant than toward other directions; this is probably related to the relatively high crustal thickness beneath and west of the Appalachian Mountains. The seismic surface-wave arrivals comprise two distinct classes: those with weakly dispersed Rayleigh waves and those with strongly dispersed Rayleigh waves. We attribute the character of Rayleigh wave arrivals in the first class to wave propagation through a predominantly crystalline crust (Blue Ridge Mountains and Piedmont terranes) with a relatively thin veneer of sedimentary rock, whereas the temporal extent of the Rayleigh wave arrivals in the second class are well explained as the effect of the thick sedimentary cover of the Valley and Ridge Province and adjacent Appalachian Plateau province to its northwest. Broadband surface-wave ground velocity is amplified along both north-northwest and northeast azimuths from the Mineral, Virginia, source. The former may arise from lateral focusing effects arising from locally thick sedimentary cover in the Appalachian Basin, and the latter may result from directivity effects due to a northeast rupture propagation along the finite fault plane.