Nemaha Strike-Slip Fault Expression on 3-D Seismic Data in SCOOP Trend

Fault interpretation is an important step in seismic structural interpretation and has a bearing on the quantitative interpretation that may eventually be carried out. This requires the meaningful recognition of the faults within the proper geological context of the area. In Oklahoma, we see wrench faulting with strike-slip faults and other associated features.

Fault interpretation is an important step in seismic structural interpretation and has a bearing on the quantitative interpretation that may eventually be carried out. This requires the meaningful recognition of the faults within the proper geological context of the area. In Oklahoma, we see wrench faulting with strike-slip faults and other associated features.

Basement‐controlled deformation of sedimentary sequences, Anadarko Shelf, Oklahoma

Fold and Thrust Belts

Nemaha Strike-Slip Fault Expression on 3-D Seismic Data in SCOOP Trend

PDF) Imaging the Deep Crustal Structure of Central Oklahoma using Stacking and Inversion of Local Earthquake Waveforms

Kurt MARFURT, University of Oklahoma, OK, ou, Geosciences

PDF) Nemaha Strike-Slip Fault Expression on 3-D Seismic Data in SCOOP Trend

Fault2SHA Central Apennines database and structuring active fault data for seismic hazard assessment

N. Sumatra Earthquake of December 26, 2004

Oklahoma

Evidence for Strike-Slip Faulting from 3D Seismic and HZ Well Strip Logs and its Impact on Hydrocarb

Brett CARPENTER, Professor (Associate), MS Geosciences, PhD Geosciences, University of Oklahoma, OK, ou, School of Geosciences

Salt Tectonics

Nemaha Strike-Slip Fault Expression on 3-D Seismic Data in SCOOP Trend