Integration of P- and SH-wave high-resolution seismic reflection and micro-gravity techniques to improve interpretation of shallow subsurface structure: New Madrid seismic zone |
| |
Authors: | C.E. Bexfield J.H. McBride A.J.M. Pugin D. Ravat S. Biswas W.J. Nelson T.H. Larson S.L. Sargent M.A. Fillerup B.E. Tingey L. Wald M.L. Northcott J.V. South M.S. Okure M.R. Chandler |
| |
Affiliation: | aDepartment of Geology, Brigham Young University, P.O. Box 24606, Provo, UT 84602, USA;bIllinois State Geological Survey, 615 E. Peabody Drive, Champaign, IL 61820, USA;cDepartment of Geology, Mail code 4324, Southern Illinois University, Carbondale, IL 62901, USA |
| |
Abstract: | Shallow high-resolution seismic reflection surveys have traditionally been restricted to either compressional (P) or horizontally polarized shear (SH) waves in order to produce 2-D images of subsurface structure. The northernmost Mississippi embayment and coincident New Madrid seismic zone (NMSZ) provide an ideal laboratory to study the experimental use of integrating P- and SH-wave seismic profiles, integrated, where practicable, with micro-gravity data. In this area, the relation between “deeper” deformation of Paleozoic bedrock associated with the formation of the Reelfoot rift and NMSZ seismicity and “shallower” deformation of overlying sediments has remained elusive, but could be revealed using integrated P- and SH-wave reflection. Surface expressions of deformation are almost non-existent in this region, which makes seismic reflection surveying the only means of detecting structures that are possibly pertinent to seismic hazard assessment. Since P- and SH-waves respond differently to the rock and fluid properties and travel at dissimilar speeds, the resulting seismic profiles provide complementary views of the subsurface based on different levels of resolution and imaging capability. P-wave profiles acquired in southwestern Illinois and western Kentucky (USA) detect faulting of deep, Paleozoic bedrock and Cretaceous reflectors while coincident SH-wave surveys show that this deformation propagates higher into overlying Tertiary and Quaternary strata. Forward modeling of micro-gravity data acquired along one of the seismic profiles further supports an interpretation of faulting of bedrock and Cretaceous strata. The integration of the two seismic and the micro-gravity methods therefore increases the scope for investigating the relation between the older and younger deformation in an area of critical seismic hazard. |
| |
Keywords: | Seismic reflection Seismic hazard New Madrid Faulting Shear waves |
本文献已被 ScienceDirect 等数据库收录! |
|