The Influence of Environmental Factors on the Quality of GPR Data: The Borre Monitoring Project


Journal article


Petra Schneidhofer, Christer Tonning, Rebecca J. S. Cannell, Erich Nau, Alois Hinterleitner, Geert J. Verhoeven, Lars Gustavsen, Knut Paasche, Wolfgang Neubauer, Terje Gansum
Remote Sensing, vol. 14(14), 2022, p. 3289


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APA   Click to copy
Schneidhofer, P., Tonning, C., Cannell, R. J. S., Nau, E., Hinterleitner, A., Verhoeven, G. J., … Gansum, T. (2022). The Influence of Environmental Factors on the Quality of GPR Data: The Borre Monitoring Project. Remote Sensing, 14(14), 3289. https://doi.org/10.3390/rs14143289


Chicago/Turabian   Click to copy
Schneidhofer, Petra, Christer Tonning, Rebecca J. S. Cannell, Erich Nau, Alois Hinterleitner, Geert J. Verhoeven, Lars Gustavsen, Knut Paasche, Wolfgang Neubauer, and Terje Gansum. “The Influence of Environmental Factors on the Quality of GPR Data: The Borre Monitoring Project.” Remote Sensing 14, no. 14 (2022): 3289.


MLA   Click to copy
Schneidhofer, Petra, et al. “The Influence of Environmental Factors on the Quality of GPR Data: The Borre Monitoring Project.” Remote Sensing, vol. 14, no. 14, 2022, p. 3289, doi:10.3390/rs14143289.


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@article{schneidhofer2022a,
  title = {The Influence of Environmental Factors on the Quality of GPR Data: The Borre Monitoring Project},
  year = {2022},
  issue = {14},
  journal = {Remote Sensing},
  pages = {3289},
  volume = {14},
  doi = {10.3390/rs14143289},
  author = {Schneidhofer, Petra and Tonning, Christer and Cannell, Rebecca J. S. and Nau, Erich and Hinterleitner, Alois and Verhoeven, Geert J. and Gustavsen, Lars and Paasche, Knut and Neubauer, Wolfgang and Gansum, Terje}
}

Abstract
The Borre Monitoring Project investigated how environmental factors, in particular, precipitation and soil moisture variation as well as different soil and sediment types, affect the quality of GPR data collected for archaeological purposes. To study these questions, regular GPR surveys were conducted over a period of 14 months across a test area covering a hall building at the Iron and Viking Age site of Borre in Norway. In order to obtain in situ measurements of environmental factors relevant for electromagnetic wave propagation including volumetric water content, bulk electrical conductivity, ground temperature, and precipitation, three monitoring stations were erected at the test site. Soil and sediment samples taken from the profiles at the respective monitoring stations were analysed to gain a basic description of their physical and chemical properties. Twelve GPR surveys were conducted roughly once a month between August 2016 and September 2017 and the results clearly indicated differences in the quality of the data collected. To better understand the underlying causes for this variation, GPR data were compared against and integrated with the in situ measurements gathered using the monitoring stations. The results of this analysis emphasised the benefit of dry conditions, which, if prevailing over a longer period of time, proved to generate GPR data of the highest quality. Seasonality could not be attested; instead, data quality was governed by small-scale weather patterns, where the time and intensity of rainfall events prior to the surveys as well as sudden changes in air temperature played a decisive role. While the results of this study are only valid for sites with similar settings such as Borre, they emphasise the importance of considering the environmental factors during all stages of a GPR survey and highlight the need for further studies investigating other settings.