About This Item
- Full text of this item is not available.
- Abstract PDFAbstract PDF(no subscription required)
Share This Item
The AAPG/Datapages Combined Publications Database
Tulsa Geological Society
Abstract
Structural
Geometry of Thrust Faulting in the Potato Hills Area of the Ouachita Mountains, Southeastern Oklahoma: Abstract
Abstract
This study is an attempt to reconcile the structural
geometry of the Late Paleozoic thrusting in the Potato Hills area with the Frontal Ouachitas. Three balanced
structural
cross
sections
are being constructed to better understand the subsurface geometry of thrusting in the Potato Hills area. At least, one of these
cross
-
sections
will be extended northward to the Wilburton gas field area where previous workers have already established the
structural
geometry. Surface geology
maps
by the Oklahoma Geological Survey, available well logs, and seismic data, and balancing software are being used to construct the
cross
sections
.
The Potato Hills area of the Ouachita Mountains contains highly complex structural
geometry due to several major thrust faults. The area contains three thrust faults exposed at the surface. These thrusts faults are South Potato Hills Thrust (SPHT), North Potato Hills Thrust (NPHT) and Cedar Creek Fault (CC). The units exposed at the surface ranges from the Middle Ordovician Womble Shale to the Mississippian Stanley Group. Recently, there has been substantial gas production from the Jackfork sandstone in the area.
In the subsurface, a major thrust fault separates Middle Ordovician rocks from the Lower Pennsylvanian rocks. The wells drilled in the area penetrated the Pennsylvanian Johns Valley Shale (Paj) below the Ordovician Womble Shale. This thrust is probably the Windingstair fault (WSF). Rock units above this fault are the Womble Shale (Ow), Bigfork Chert (Ob), Polk Creek-Missouri Mountain Shales (Op-Sm), Arkansas Novaculite (MDa) and Stanley Group (PMs).
Our preliminary interpretation suggests that the Windingstair fault is a major discontinuity within the Ouachita Mountains. Although the fault is a high angle fault at the surface, it gets almost horizontal at depth. We intend to delineate its structural
relationship between the Woodford and Choctaw Detachments.
Acknowledgments and Associated Footnotes
1 Oklahoma State University, Stillwater, OK
2 Oklahoma State University, Stillwater, OK
Copyright © 2006 by the Tulsa Geological Society