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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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Valley and Ridge Province (1)
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United States
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Pennsylvania
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Blair County Pennsylvania (1)
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Clinton County Pennsylvania (1)
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Huntingdon County Pennsylvania (1)
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Lycoming County Pennsylvania (1)
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Mifflin County Pennsylvania (1)
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Northumberland County Pennsylvania (1)
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geologic age
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Paleozoic
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Devonian
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Middle Devonian
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Hamilton Group (1)
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Mahantango Formation (1)
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Marcellus Shale (1)
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Upper Devonian
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Brallier Shale (1)
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Primary terms
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faults (1)
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folds (1)
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foliation (1)
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fractures (1)
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North America
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Appalachians
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Valley and Ridge Province (1)
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Paleozoic
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Devonian
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Middle Devonian
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Hamilton Group (1)
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Mahantango Formation (1)
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Marcellus Shale (1)
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Upper Devonian
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Brallier Shale (1)
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sedimentary rocks
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clastic rocks
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black shale (1)
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structural analysis (1)
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tectonics (1)
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United States
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Pennsylvania
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Blair County Pennsylvania (1)
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Clinton County Pennsylvania (1)
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Huntingdon County Pennsylvania (1)
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Lycoming County Pennsylvania (1)
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Mifflin County Pennsylvania (1)
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Northumberland County Pennsylvania (1)
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sedimentary rocks
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sedimentary rocks
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clastic rocks
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black shale (1)
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Abstract A Marcellus-Burket/Geneseo field trip in the Appalachian Valley and Ridge features both brittle and ductile structures. The degree to which these structures have developed depends on both lithology, which is a function of the stratigraphic architecture of the Devonian Appalachian Basin and position relative to the foreland during the Alleghanian Orogeny. Joints are best developed in the black shales and the units immediately above with the J 2 joint set most prominent in the Brallier Formation just above the Burket/Geneseo Formation. Faults are seen in the form of cleavage duplexes and bedding-parallel slip accompanying flexural-slip folding. Cleavage duplexes are found in the Marcellus whereas bedding-parallel slip is more common in the overlying Mahantango Formation and further up the section in the Brallier Formation. Layer-parallel shortening decreases from greater than 50% to approximately 10% when crossing the Jacks Mountain–Berwick Anticline structural front from the hinterland portion to the foreland portion of the Valley and Ridge. Disjunctive cleavage, the primary mechanism for layer-parallel shortening, is best developed in carbonates whereas pencil cleavage is best developed in shales.
Abstract The Catskil! Delta Complex of western New York State contains fractured Upper Devonian black shales throughout a 300 km-transect from the more distal, somewhat shallower, deposits of the western region of the state eastward to more proximal and more deeply buried deposits. Each black shale unit grades upward into organically lean grey shale and abruptly overlies another grey shale unit. Within each black shale-grey shale sequence, ENE-trending vertical joints, interpreted to be hydraulic fractures, are best developed (i.e. more closely and uniformly spaced) in the organic-rich shale. Moreover, the density of ENE joints diminishes up-section through each black shale unit, as does the total organic carbon (TOC) content. While ENE joints are less well developed outside the black shale intervals, joints that formed during the Alleghanian orogeny (NW-trending) are found throughout the Upper Devonian shale sequence. Both sets are best developed in black shales in the distal delta sequence, whereas in more proximal deposits the Alleghanian joint sets are best developed in grey shales. Moreover, the density of ENE joints within each stratigraphie level of the black shale exceeds that of Alleghanian joints at the same level, except in the deepest black shale where Alleghanian joints are locally best developed at the top of the black shale interval. The preferential jointing of black shale units in the Appalachian Plateau reflects an extended hydrocarbon generation history. In the distal delta, hydrocarbon generation began when black shale was close to or at maximum burial depth (c. 2.3 km) during the Alleghanian orogeny with the propagation of a NW joint set and continued through post-Alleghanian uplift of the Appalachian Plateau when the ENE joints propagated. In the proximal delta deposits ENE joints propagated before the onset of Alleghanian deformation suggesting that the base of the Upper Devonian section was buried to thermal maturity by progradation of the Catskill Delta Complex before the advent of Alleghanian sedimentation.