Testing Area‐Scale Fractal Complexity (Asfc) and Laser Scanning Confocal Microscopy (LSCM) to Document and Discriminate Microwear on Experimental Quartzite Scrapers |
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Authors: | W J Stemp H J Lerner E H Kristant |
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Institution: | 1. Surface Metrology and Archaeological Research Technologies Project, Department of Sociology, Anthropology and Criminology, Keene State College, Keene, NH, USA;2. Research Associate, Faculté des Lettres, CELAT, Université Laval, Québec, Canada;3. John A. Paulson School of Engineering and Applied Sciences, Harvard University, Cambridge, MA, USA |
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Abstract: | Few microwear studies have been conducted on tools made from quartzite. Most rely on visual observation of microwear features using optical light microscopes and scanning electron microscopes. Quantification of microwear on quartzite tools is extremely rare, even though numerous methods to mathematically document surface roughness have been applied to other silicate tools. In this paper, laser scanning confocal microscopy (LSCM) was used to document surface roughness on four experimental scrapers made from two different subtypes of Mistassini quartzite that were used on either fresh or dry deer hide. Surface roughness data were analysed using area‐scale fractal complexity (Asfc). The results of this test case indicate that Asfc can effectively discriminate between the unused and used regions on the quartzite tools based on surface roughness, and that it can also discriminate between surface roughness produced by working dry versus fresh hides. Differences in the subtypes of Mistassini quartzite did affect surface roughness, but not significantly enough to prevent discrimination of the dry and fresh hide‐working tools. Although the use of the Asfc parameter for lithic microwear analysis requires further testing, these first results suggest it could be a reliable technique to mathematically document and discriminate wear patterns on archaeological quartzite tools. |
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Keywords: | scale‐sensitive fractal analysis microwear laser scanning confocal microscopy relative area area‐scale fractal complexity quartzite |
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