Example of a resistivity profile collected at the site.

The resistivity testing provided geologic data down to depths of approximately 110 feet. The results of the geophysical testing indicated four main geologic strata that characterized the subsurface across the property:

• Stratum 1 - High resistivity (2000+ Ohm-m) dry sandy soils with varying percentages of fines in the upper ~2 to ~50 feet.
• Stratum 2 - Mid-resistivity (500-1000 Ohm-m) dry clayey soils with variable sand content directly underlying the sandy soils
• Stratum 3 - Low resistivity (<1-500 Ohm-m) saturated clayey soils underlying the dry clayey soils
• Stratum 4 - High resistivity materials (sand or rock) below the water table in the lower portion of most profiles.

 Stratum 1 was considered to be the soils that could potentially be used for mining purposes. The resistivity data were analyzed, and depths/thicknesses of viable sandy soils were extracted from each transect to generate contour maps of the sandy soils across the property. The contour maps helped to show both the average thickness of the sandy soil unit, as well as specific locations that may provide increased or decreased volumes of sand.   

The application of electrical resistivity to this project allowed for a relatively detailed understanding of the geologic conditions at the property that was obtained in a short amount of time. The alternative would be to perform a significant number of additional soil borings, which would have resulted in exponentially higher costs to the client and additional time to realize the results. Furthermore, the continuous profiles of geology that are obtained using the geophysical methods eliminate gaps in the data that would otherwise be present if the boring program was the only approach taken. The project shows the benefit of using geophysics, in conjunction with physical soil samples (ground truth data) to effectively characterize a project site in a short amount if time.    

In addition to the application of electrical resistivity mapping described above, other uses for the technology include:

• General geologic mapping
• Void/cave detection
• Identifying subsurface contaminant plumes
• Locating flow pathways, fractures, and porous zones
• Geotechnical investigations
• Aquifer delineation/water quality analyses

Recently, Pyramid updated our Multi-Electrode Electrical Resistivity (MER) capabilities by adding an Advanced Geosciences, Inc. (AGI) SuperSting R8 earth resistivity meter and a cable set with 56 electrode capability to our suite of geophysical equipment. This setup will allow us to cover as much as 1,000 feet across the ground surface with a single test, and image the subsurface to depths as great as 200 feet if necessary.   

Electrical resistivity is an extremely useful tool that can quickly characterize the subsurface conditions at a particular project site. Its applications include general geologic mapping, void/cave detection, identifying subsurface contaminant plumes, locating flow pathways, fractures, and porous zones in subsurface stratigraphy/lithology, geotechnical investigations, and aquifer delineation/water quality analyses.

Contact us today if you have questions or want to find out more about how resistivity surveys may help solve specific problems associated with your own project sites.