The Appalachian Geology of John M. Dennison: Rocks, People, and a Few Good Restaurants along the Way
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Dr. John M. Dennison spent his career studying the Appalachians; teaching and mentoring his students and professional colleagues; publishing papers; leading field trips; and presenting ideas at regional, national, and international conferences. This volume is a collection of papers contributed by former students and colleagues to honor his memory. Topics include stratigraphy and paleontology ranging in age from Ordovician to Mississippian in Kentucky, New York, Tennessee, Virginia, and West Virginia; Devonian airfall tephras throughout the eastern United States; a Devonian lonestone; a Middle Eocene bentonite in North Carolina and its relationship to a volcanic swarm in western Virginia; and a 3D model of a ductile duplex in northwestern Georgia. The stratigraphic and geologic diversity of the papers reflects Dennison's many interests and collaborative relationships.
Middle Mississippian (late Osagean; early Viséan) Floyds Knob glauconite interval, Borden and Fort Payne Formations, Appalachian and Illinois Basins, Kentucky, USA: Synergistic influence of tectonics, paleoclimate, and paleogeography
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Published:August 12, 2020
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CiteCitation
Devi B.P. Udgata*, Frank R. Ettensohn, 2020. "Middle Mississippian (late Osagean; early Viséan) Floyds Knob glauconite interval, Borden and Fort Payne Formations, Appalachian and Illinois Basins, Kentucky, USA: Synergistic influence of tectonics, paleoclimate, and paleogeography", The Appalachian Geology of John M. Dennison: Rocks, People, and a Few Good Restaurants along the Way, Katharine Lee Avary, Kenneth O. Hasson, Richard J. Diecchio
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ABSTRACT
During latest Devonian to Middle Mississippian parts of the Neoacadian and Ouachita orogenies, the Appalachian Basin and parts of the Illinois Basin were filled with clastic debris derived from the westward-prograding Borden-Grainger-Price-Pocono clastic wedge. This delta complex is overlain by the widespread shallow-water Newman–Greenbrier–Slade–St. Louis–Warsaw–Salem–Harrodsburg carbonate interval across sediment-starved surfaces, comprising the Floyds Knob bed or interval. The Middle Mississippian (late Osagean; early Viséan) Floyds Knob interval is less than a meter to several meters thick and is composed of multiple zones of pelletal glauconite, finely divided glauconitic shales, glauconitic carbonates, and locally derived carbonate mud mounds. The interval occurs across most of the Borden-Grainger delta platform, delta front, prodelta, and within the starved-basin area seaward of the delta complex, which was then filled with the Fort Payne Formation. This study reports herein the first occurrence of the Floyds Knob interval within the Fort Payne Formation. Glauconite deposition in this interval apparently occurred in mildly oxic to dysoxic, sediment-starved, shallow-marine settings and is believed to represent termination of major clastic influx in more proximal parts of the Neoacadian foreland basin during lowstand conditions. Moreover, these starved-basin conditions can be correlated with delta diversion following bulge migration during flexural loading–type relaxation. During these sediment-starved, lowstand conditions, glauconite was deposited across deltaic and basinal settings in central and distal parts of the Neoacadian foreland basin, as well as in eastern parts of the present-day Illinois intracratonic basin. The cessation of deltaic clastic sedimentation permitted development of carbonate mud mounds and associated glauconitic shales on and near reactivated structures in central parts of the Fort Payne starved basin and set the stage for the widespread deposition of thick, Meramecian–Chesterian carbonates throughout the basins during succeeding subtropical and lowstand conditions. Whether less-than-a-meter or tens-of-meters thick, the Floyds Knob interval is a widespread Middle Mississippian chronostratigraphic interval in the east-central United States that reflects a change in tectonic regime, which is recorded in the shift from predominantly clastic to carbonate sedimentation across a broad region. Aside from its correlative value, the unit demonstrates consequent sedimentary responses to the interplay among tectonism, paleoclimate, and paleogeography.
- Appalachian Basin
- basement
- biogenic structures
- bioherms
- Borden Group
- carbonate rocks
- Carboniferous
- deltaic environment
- depositional environment
- Fort Payne Formation
- glauconite
- Illinois Basin
- Lower Mississippian
- marine environment
- mica group
- Middle Mississippian
- Mississippian
- mud mounds
- North America
- Osagian
- paleoclimatology
- paleogeography
- Paleozoic
- sedimentary rocks
- sedimentary structures
- sheet silicates
- silicates
- synsedimentary processes
- tectonics
- United States
- Visean
- X-ray diffraction data
- Floyds Knob Formation
- Borden-Grainger delta complex