Global ETD Search

21	Fluvial Architecture of the Interval Spanning the Pittsburgh and Fishpot Limestones (Late Pennsylvanian), Southeastern Ohio King, M. Ryan 25 April 2008 (has links) No description available. Geology Fluvial Architecture Conemaugh Group Monongahela Group Sequence Stratigraphy Late Pennsylvanian Appalachian Basin
22	Climate-induced Changes in Fluvial Ichnofossil Assemblages of the Pennsylvanian-Permian Appalachian Basin Crowell, Jennifer K. 16 September 2022 (has links) No description available. Geology Paleoecology Paleontology Ecology Climate Change Climate Ichnofossils Pennsylvanian-Permian Appalachian Basin
23	Sequence stratigraphy and the development of a clinoformal carbonate ramp on an abandoned delta system: Mississippian Fort Payne--Salem Interval, Kentucky Khetani, Amy B. 01 November 2008 (has links) Middle Mississippian ramp carbonates in Kentucky (Fort Payne to Salem interval) form a large scale depositional supersequence (0 to 500 feet thick, approximately 8 m. y. duration). It formed on and in front of the abandoned Early Mississippian Borden deltaic marine paleoshelf, which had up to 100 m of relief above the adjacent starved basin. Major facies consist of marine quartz sandstone and shale; peritidal carbonates; high-energy ramp margin, crinoidal-bryozoan grainstones; deeper ramp mounds, skeletal grainstone/packstone sheets and channel-fills interlayered with shale or calcisiltite; and slope deposits of siliceous calcisiltite. Regional slopes on the paleoshelf edge and ramp margin are 0.5 to 2.5 mIkm (less than 0.25 degrees), although clinoforms of 2 to 10 degrees occur locally associated with mounds and depositional lobes. The supersequence LST is dominated by mounds interlayered with green shaly, deeper ramp facies. The mounded units are located in a fairway that is normal to the Borden margin but parallel to the Appalachian Grainger deltaic shelf. No TST is evident, except for a glauconite horizon capping the Borden paleoshelf. The supersequence HST consists of at least eight third-order sequences (each approximately 1 m.y. duration), the older ones downlapping onto the shelf 20 to 30 m deep, the younger ones downlapping into the deeper basin (over 150 m water depth). Sequences show marked toplap with the upper sequence boundary. The third-order sequences locally have lowstand sands, some of which may be associated with a paleodrainage system off the Borden paleo shelf. They lack recognizable TSTs, but have well-developed prograding HST units of nearshore shale and peritidal dolomite, skeletal packstone/grainstone banks, and siliceous calcisiltite slope facies. The supersequence correlates with a global sea level cycle in the lower Visean terminating in a major sea-level fall. The highly clinofonned toplapping supersequence reflects this long term, sea-level fall which prevented space from being created on the old delta top. The third-order sequences, although mappable between the sections, are not easily correlated with global third order cycles. / Master of Science clinoformed carbonate ramp sequence stratigraphy Mississippian abandoned delta Appalachian Basin LD5655.V855 1997.K448
24	Circulation of North American epicontinental seas during the Carboniferous using stable isotope and trace element analyses of brachiopod shells Flake, Ryan Christopher 2011 May 1900 (has links) Previous studies have identified δ¹³C events in the Carboniferous that imply major shifts in the carbon cycle. However, inherent in this interpretation is the assumption that epicontinental seas are chemically representative of the global ocean. Our study uses stable isotope and trace element analyses of brachiopod shells to examine changes in climate and circulation of the North American epeiric sea. Formations were selected for study to provide shallow marine environments with geographic coverage of North America. These units include the Grove Church and Mattoon Formations (Illinois Basin), Glenshaw Formation (Appalachian Basin), Bird Spring Formation (Bird Spring Basin), and Oread Formation (US midcontinent). In all, 98 brachiopod shells were found to be well preserved based on screening with plane light and cathodoluminescence microscopy of thin-sections, and trace element analyses. Upper Chesterian Grove Church (Illinois Basin) samples have δ¹³C and δ¹⁸O averages of 1.1% and -3.1% respectively. These low values are interpreted as a local or regional effect caused by terrestrial runoff. Terrestrial influences are also suggested by the depositional environment: nearshore marine. Chesterian samples from the Bird Spring Formation at Arrow Canyon, Nevada average 3.7% and -1.4% for δ¹³C and δ¹⁸O respectively. The higher δ¹³C and δ¹⁸O values, compared with samples from the time equivalent Grove Church, likely reflect the freer exchange with the Panthalassa Ocean at this most western edge of North America, and best represent open-ocean conditions. Samples from the Virgilian Ames-Shumway-Plattsmouth cyclothem show a progression of δ¹³C and δ¹⁸O enrichment moving west from near the Appalachians (1.9% and -3.8%) to the Illinois Basin (3.2% and -2.4%) and finally to the US midcontinent (4.2% and -1.5%). This is interpreted as the transition from nearshore, terrestrial influence with enhanced organic matter oxidation and lower salinity to well-mixed conditions with normal salinities and potential for seafloor ventilation and upwelling. This is supported by published sediment ΣNd(t) values from the Appalachian Basin (ΣNd(t) = -9) that increase further westward (ΣNd(t) = -6) due to higher influence from the eastern Panthalassa Ocean. Mass balance calculations based on the δ¹⁸O of the brachiopod shells suggest salinities of 25 and 31 psu for the Appalachian and Illinois Basins, respectively, assuming salinities of 34.5 psu for the US midcontinent. Trace element analyses do not show a systematic east-west trend similar to stable isotopes. In both time slices, spiriferids from the intermediately-located Illinois Basin are enriched in Mg/Ca and Sr/Ca relative to those in other basins. This Mg and Sr enrichment in Illinois Basin brachiopods suggests delivery of Sr-rich fresh waters and restricted circulation in that basin. brachiopod carboniferous paleozoic epicontinental seas epeiric seas stable isotope trace element Appalachian Basin Illinois Basin US Midcontinent Bird Spring Basin
25	Controlling variables in the transition from a non-organic-rich marine shale to an organic-rich marine shale, Devonian Ohio Shale, north-central Ohio Dunkel, Caroline Aubrey 10 August 2020 (has links) No description available. Geology Geochemistry Environmental Geology Black Shale Ohio Shale Olentangy Shale Catskill Delta Devonian Appalachian Basin Organic Carbon Hyperpycnites
26	Sequence Stratigraphic Framework for the Upper Devonian Lower-Huron Shale Member of the Ohio Shale, North-Central Appalachian Basin Cullen, Patrick James 11 June 2018 (has links) No description available. Geology Energy Sedimentary Geology Ohio Shale Lower Huron Appalachian Basin Devonian Sequence Stratigraphy Black Shale Source Rock Oil and Gas Famennian
27	High resolution sequence stratigraphy of late Mississippian carbonates in the Appalachian Basin Al-Tawil, Aus 15 December 2008 (has links) The late Mississippian carbonates in the Appalachian Basin, U.S.A., were deposited on a huge, south-facing ramp during long-term Mississippian transgression that formed the Mississippian supersequence. The St. Louis- to Glen Dean interval consists of up to twelve fourth-order depositional sequences (300 to 400 k.y. average duration). The sequences (a few meters to over a hundred meters thick) consist of eolianites, lagoonal carbonate muds, ooid shoals, and skeletal banks, and open marine skeletal wackestone and basinal marion the ramp-slope and basin margin. Sequence boundaries are at the top of prograding red-beds, eolianites, and shoal water facies on the ramp, and beneath lowstand sand bodies and quartzose calcisiltite wedges on the ramp margin and slope. Maximum flooding surfaces are difficult to map regionally, therefore it is difficult to separate the TST from the HST of these fourth-order sequences. / Ph. D. Mississippian Appalachian Basin tectonics glacio-eustacy disconformity sequence stratigraphy paleosol carbonates paleo-climate LD5655.V856 1998.A483
28	Utilizing noble gases to identify hydraulic fracturing “sweet spots” and evaluate the occurrence of carbon isotopic reversals of hydrocarbons within the Northern Appalachian Basin Lary, Brent Alexander January 2020 (has links) No description available. Geology Geochemistry Energy Noble Gases Hydrocarbons Geochemistry Appalachian Basin Isotope Reversals Marcellus Shale Hydraulic Fracturing Fracking Unconventional Extraction Shale Fluid Flow Radiogenic Diffusion Oxidation Migration Mixing
29	Using Ichnology and Sedimentology to Determine Paleoenvironmental and Paleoecological Conditions of a Shallow-Water, Marine Depositional Environment: Case Studies from the Pennsylvanian Ames Limestone and Modern Holothurians Smilek, Krista R. 21 September 2009 (has links) No description available. Geology Paleoecology Paleontology Ames Limestone Glenshaw Formation Conemaugh Group Southeastern Ohio Athens, Ohio Pennsylvanian Late Pennsylvanian Appalachian Basin Thyonella gemmata Holothurian Ichnology Ichnofossil Trace Fossil Sea cucumber Neoichnology
30	Evaluating Clay Mineralogy as a Thermal Maturity Indicator for Upper Devonian Black and Grey Shales and Siltstones within the Ohio Appalachian Basin Strong, Zachary M. January 2015 (has links) No description available. Geology Geophysics

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