1. Integrated application of 2D resistivity and electromagnetic methods to investigate a metallic-sulfide deposit in Soap Gulch, Montana. A case study
- Author
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Fernando A. Monteiro Santos, Akpofure Orubu, Mohammad Farzamian, Brad Rutherford, Mohamed A. Khalil, and Marvin A. Speece
- Subjects
chemistry.chemical_classification ,010504 meteorology & atmospheric sciences ,Sulfide ,Gulch ,Mineralogy ,010502 geochemistry & geophysics ,01 natural sciences ,chemistry ,Electrical resistivity and conductivity ,General Earth and Planetary Sciences ,Metallic sulfide ,Electrical resistivity tomography ,Very low frequency ,Current density ,Geology ,0105 earth and related environmental sciences ,General Environmental Science - Abstract
Geoelectrical methods involving electrical resistivity tomography (ERT), self-potential (SP), frequency domain electromagnetic (FDEM), and very low frequency (VLF) methods have been used to provide valuable information in locating a known sulfide ore body in Soap Gulch, Montana. The study develops basis of comparison for the geophysical techniques employed. Ranges of resistivity along the area have been established using interpreted ERT which can help to understand the subsurface distribution of sulfides in the area. A sulfide body was delineated from the survey area corresponding to anomalously low resistivity values on the ERT section, negative SP, and high apparent current density zone in VLF. Depth to the localized ore zone ranges approximately from 10 to 20 m. FDEM data reflect the conductivity distribution of the shallow subsurface (less than 6 m deep); hence, the delineated sulfide zone had minimal contribution to FDEM measurements. The results of the study show that SP, VLF, and ERT methods provide significant information in localizing ore bodies. The survey revealed that the resistivity values obtained from ERT profile corroborate the FDEM, SP, and VLF from the area.
- Published
- 2018