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Investigating the Stratigraphy of an Alluvial Aquifer Using Crosswell Seismic Traveltime Tomography
Geophysics
  • Geoff J.M. Moret, Pennsylvania State University
  • Michael D. Knoll, Boise State University
  • Warren Barrash, Boise State University
  • William P. Clement, Boise State University
Document Type
Article
Publication Date
5-24-2006
Abstract

In this study, we investigate the use of crosswell P-wave seismic tomography to obtain spatially extensive information about subsurface sedimentary architecture and heterogeneity in alluvial aquifers. Our field site was a research wellfield in an unconfined aquifer near Boise, Idaho. The aquifer consists of a ~ 20-m-thick sequence of alluvial cobble- and-sand deposits, which have been subdivided into five stratigraphic units based on neutron porosity logs, grainsize analysis, and radar reflection data. We collected crosswell and borehole-to-surface seismic data in wells 17.1 m apart. We carefully considered the impact of well deviation, data quality control, and the choice of inversion parameters. Our linearized inverse routine had a curved-ray forward model and used different grids for forward modeling and inversion. An analysis of the model covariance and resolution matrices showed that the velocity models had an uncertainty of <10 m>/s, a vertical resolution of ~ 1 m, and a horizontal resolution of ~ 5 m. The velocity in the saturated zone varied between 2100 m/s and 2700 m/s. Inclusion of the borehole-to-surface data eliminated the Xshaped pattern that is a common artifact in crosswell tomography, and the increased angular coverage also improved the accuracy of the model near the top of the tomogram. The final velocity model is consistent with previous stratigraphic analyses of the site, although the locations of some of the unit boundaries differ by as much as 2 m in places. The results of this study demonstrate that seismic tomography can be used to image the sedimentary architecture of unconsolidated alluvial aquifers, even when the lithologic contrasts between units are subtle.

Copyright Statement

This document was originally published by Society of Exploration Geophysicists in Geophysics. Copyright restrictions may apply. DOI: 10.1190/1.2195487

Citation Information
Geoff J.M. Moret, Michael D. Knoll, Warren Barrash and William P. Clement. "Investigating the Stratigraphy of an Alluvial Aquifer Using Crosswell Seismic Traveltime Tomography" Geophysics (2006)
Available at: http://works.bepress.com/warren_barrash/6/