Geoelectric Investigations with Special Measurement Geometry to Delimit Prehistoric Mining Areas in Hallstatt

D. Ottowitz; B. Jochum; M. Yi; S. Pfeiler; A. Römer; K. Kowarik; D. Brandner; A. Nevosad; H. Reschreiter

doi:10.3997/2214-4609.202120009

Geoelectric Investigations with Special Measurement Geometry to Delimit Prehistoric Mining Areas in Hallstatt
Authors D. Ottowitz¹, B. Jochum¹, M. Yi², S. Pfeiler¹, A. Römer¹, K. Kowarik³, D. Brandner³, A. Nevosad¹, H. Reschreiter³
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Affiliations: ¹ Geological Survey of Austria/Department of Geophysics ² Korea Institute of Geoscience and Mineral Resources (KIGAM)/Exploration Geophysics and Mining Engineering Department ³ Natural History Museum Vienna/Department of Prehistory
Publisher: European Association of Geoscientists & Engineers
Source: Conference Proceedings, NSG2021 27th European Meeting of Environmental and Engineering Geophysics, Aug 2021, Volume 2021, p.1 - 5
DOI: https://doi.org/10.3997/2214-4609.202120009

Abstract

Summary

The Hallstatt area in Austria has a very long history of salt mining, which was frequently interrupted by large landslides. Landslide material filled the prehistoric underground mining chambers and therefore conserved their dimensions. Within several geoelectric measurement campaigns, data from ground surface measurements and from geoelectric profiles in 2 mining tunnels from the 18th century were collected, resulting in a 3D data set of about 80,000 data points. The aim was to track a mining chamber of the Early Iron Age, which has been filled with landslide material. The already existing reconstruction of this mining chamber is based on several archeological excavation points and an interpolation in between. A collapsed mining shaft known from laser scan data has been confirmed beforehand with surface ERT measurements. Due to the high resistive salt rock and the hardness and dryness of the intruded landslide material, the Early Iron Age mining chamber could not be differentiated sufficiently. Instead, results could pinpoint that the mining chambers are following the area of the highest electrical resistivity, which is determined as “Haselgebirge” in geological maps. Therefore, indications of the location of the Early Iron Age mining chamber, where no archaeological finds exists until now, could be given.

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2024-04-24

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References

Jochum, B., Ita, A., Ottowitz, D., Pfeiler, S., Reschreiter, H. and Kowarik, K.
[2018] Geoelektrische Messungen zur Identifizierung verschütteter, prähistorischer Bergbaubereiche im Hallstätter Hochtal. 78. Jahrestagung der Deutschen Geophysikalischen Gesellschaft, Leoben, Austria, 30–31 (Abstract).
[Google Scholar]
Kim, J.-H., Tsourlos, P., Karmis, P., Vargemezis, G., and Yi, M.-J.
[2016] 3D inversion of irregular gridded 2D electrical resistivity tomography lines: application to sinkhole mapping at the island of Corfu (West Greece). Near Surface Geophysics, 14, 275–875.
[Google Scholar]
Reschreiter, H. and Kowarik, K.
[2019] Bronze Age mining in Hallstatt. A new picture of everyday life in the salt mines and beyond. Archaeologia Austriaca, 103, 99–136, DOI: https://doi.org/10.1553/archaeologia103s99.
[Google Scholar]
Supper, R., Ottowitz, D., Jochum, B., Kim, J.-H., Römer, A., Baron, I., Pfeiler, S., Lovisolo, M., Gruber, S. and Vecchiotti, F.
[2013] Geoelectrical monitoring: an innovative method to supplemented landslide surveillance and early warning. In: Special Issue on Geoelectrical Monitoring (Eds. SupperR., ChambersJ., TsourlosP., KimJ. H.), Near Surface Geophysics, 12(1), 133–150, DOI: 10.3997/1873‑0604.2013060.
https://doi.org/10.3997/1873-0604.2013060 [Google Scholar]
Yi, M.-J., Kim, J.-H., Song, Y., Cho, S.-J., Chung, S.-H., and Suh, J.-H.
[2001] Three-dimensional imaging of subsurface structures using resistivity data. Geophysical Prospecting, 49, 483–497.
[Google Scholar]

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Geoelectric Investigations with Special Measurement Geometry to Delimit Prehistoric Mining Areas in Hallstatt

Conference Proceedings 2021, 1 (2021); https://doi.org/10.3997/2214-4609.202120009

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Abstract

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