--> Abstract: Seismic Reflection and Drill Hole Study of the Herald-Phillipstown Fault in the Wabash Valley, by S. Chatterjee and J. L. Sexton; #90087 (2009).
[First Hit]

Datapages, Inc.Print this page

Seismic Reflection and Previous HitDrillNext Hit Hole Study of the Herald-Phillipstown Fault in the Wabash Valley

S. Chatterjee1 and J. L. Sexton2
1Department of Geological Sciences, Indiana University, Bloomington, IN-47405-1403
2Department of Geology, Southern Illinois University, Carbondale, IL-62901

Five seismic reflection profiles from the Wabash Valley area of southeastern Illinois successfully imaged the Herald-Phillipstown fault. From the reflection profiles and geophysical well logs, it was interpreted that the Herald-Phillipstown fault is an inverted flower structure. The main fault of the group is a steeply dipping normal fault with associated splay faults that are reverse in character. All the faults of this inverted flower structure are basement penetrating. Structural contour maps as well as maps of various reflector surfaces are prepared using two way travel time as well as depth. These maps show that the reflectors are undulating in character. Also distinct east-west rotational movements of the reflectors are observed along these faults and the main fault shows a curved geometry from south to north. The combination of the rotational movement, the curved nature of the fault plane and the undulating reflectors resulted in variation of offsets along these faults. The nature of faults of the inverted flower structure as observed on the seismic reflection profiles also indicates that there has been a change in the stress regime from extensional to compressional. Structural cross sections were generated using geophysical well logs from Previous HitdrillTop holes located along these seismic lines to analyze the nature of these faults at shallower depths. From these cross sections numerous shallow faults were observed and many of them can be correlated with those observed on seismic records indicating upward migration of basement penetrating faults into shallow younger sediments.

AAPG Search and Discover Article #90087 © 2008 AAPG/SEG Student Expo, Houston, Texas