Benjamin Eppinger
Virginia Tech
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ABSTRACT:
Article Title: Quantifying Depth-Dependent Seismic Anisotropy in the Critical Zone Enhanced by Weathering of a Piedmont Schist
Authors: B.J. Eppinger, J.L. Hayes, B.J. Carr, S. Moon, C. Cosans, W.S. Holbrook, C.J. Harman, and Z.T. Plante
Corresponding author: Jorden L. Hayes (hayesjo@dickinson.edu)
These files contain all near-surface geophysical data used in our paper titled "Quantifying Depth-Dependent Seismic Anisotropy in the Critical Zone Enhanced by Weathering of a Piedmont Schist". These data include geophone readings for 4 seismic refraction profiles and 14 circular seismic refraction surveys. The data is grouped by the location at which it was collected and the site names correspond to those used in the aforementioned paper.
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Created: May 27, 2021, 7:37 p.m.
Authors: Eppinger, Benjamin
ABSTRACT:
Article Title: Quantifying Depth-Dependent Seismic Anisotropy in the Critical Zone Enhanced by Weathering of a Piedmont Schist
Authors: B.J. Eppinger, J.L. Hayes, B.J. Carr, S. Moon, C. Cosans, W.S. Holbrook, C.J. Harman, and Z.T. Plante
Corresponding author: Jorden L. Hayes (hayesjo@dickinson.edu)
These files contain all near-surface geophysical data used in our paper titled "Quantifying Depth-Dependent Seismic Anisotropy in the Critical Zone Enhanced by Weathering of a Piedmont Schist". These data include geophone readings for 4 seismic refraction profiles and 14 circular seismic refraction surveys. The data is grouped by the location at which it was collected and the site names correspond to those used in the aforementioned paper.