The Application of Terrestrial Laser Scanning for the Documentation and Monitoring of a Threatened Buffalo Jump Heritage Site in South-central Alberta
Date
2019-09-20
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Abstract
The research presented outlines the use of terrestrial laser scanning as a method of digitally capturing an at-risk Buffalo Jump site in south-central Alberta. The bison faunal material and other archaeological remains present at the base of the sandstone cliff were exposed following the 2013 flooding and migration of the main channel of the Jumping Pound Creek, and the remnant portion of the site is classified as highly threatened due to natural erosional processes along the riverbank. Terrestrial LiDAR was implemented to digitally capture the site and surrounding landscape in the fall of 2016, and a second point cloud dataset was collected in the fall of 2017. Results of the cloud-to-cloud comparison of the two non-contemporaneously collected datasets determined that in certain areas along the cutbank of the site locality over 1.5 meters of erosion took place. Measurements of the sedimentary cutbank and geologic profiling were recovered from the 3-dimensional spatial data collected and comparisons were made for determinations of cutbank undercutting and instability at different locations based on the point-cloud datasets. This research will allow for more strategic mitigative archaeological initiatives to be implemented at this site of significant traditional provenance for the Blackfoot peoples to aid in its protection and preservation. TLS implementation creates accurate 3D visualization of archaeological sites it is argued that the analytical possibilities of point clouds and other forms of digital data require further exploration for potential applications in monitoring and use of these datasets for public outreach and sharing of cultural heritage resources. The resulting datasets provide a lasting digital record of the site, at multiple points in time, and the importance of properly archiving datasets for sharing and data compatibility for future use in monitoring is a necessity. As natural disasters such as flooding and wildfire increase in frequency, it is concluded that reality-capture technologies, such as TLS, are effective tools for sharing, documenting, and monitoring heritage resources.
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Keywords
Geoarchaeology, Terrestrial Laser Scanning, Ground-Based LiDAR, Great Plains, Archaeology, Buffalo Jump, Heritage-At-Risk
Citation
Pennanen, K. A. (2019). The Application of Terrestrial Laser Scanning for the Documentation and Monitoring of a Threatened Buffalo Jump Heritage Site in South-central Alberta (Master's thesis, University of Calgary, Calgary, Canada). Retrieved from https://prism.ucalgary.ca.