Disentangling carcass processing activities and the state of worked hide from use-wear patterns on expedient bone tools: A preliminary experiment

Disentangling carcass processing activities and the state of worked hide from use-wear patterns on expedient bone tools: A preliminary experiment

•Description of wear on bone used for flaying skin, fleshing hide, and cutting meat.•Bone fragments with acute edges are efficient tools for butchery and hide working.•Quantitative and qualitative methods are complementary to study use-wear.•Flexible discriminate analysis accurately predicts the act...

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Bibliographic Details
Published in:Journal of archaeological science, reports Vol. 49; p. 104027
Main Authors: Ma, Shuwen, Doyon, Luc, Zhang, Yameng, Li, Zhanyang
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-06-2023
Elsevier
Subjects:
Archaeology and Prehistory
Bone tools
Carcass processing
Confocal microscope
Experimental archaeology
Humanities and Social Sciences
Scanning electron microscope
Surface texture analysis
Experimental archaeology
Bone tools
Carcass processing
Confocal microscope
Scanning electron microscope
Surface texture analysis
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Summary:•Description of wear on bone used for flaying skin, fleshing hide, and cutting meat.•Bone fragments with acute edges are efficient tools for butchery and hide working.•Quantitative and qualitative methods are complementary to study use-wear.•Flexible discriminate analysis accurately predicts the activity 80% of the time. Understanding the role of expedient osseous tools in past technological systems remains a central question in research on the cultural evolution of our lineage. Often, these tools are interpreted as objects used in hide processing activities based on use-wear patterns documented on their surface. However, traditional use-wear analyses are essentially qualitative and fail to capture the diversity of hide processing techniques and processes documented in the ethnographic literature. In addition, use-wear patterns produced while flaying skin and cutting meat can sometime be confounded with those that develop while processing hide. Here, we report an experimental study that aims to overcome these limitations. We use unretouched expedient bone tools in one flaying, five fleshing and two meat cutting activities. The use-wear patterns are studied qualitatively under SEM at 100x, 200x, 500x and 800x lens magnifications, and with confocal microscopy at 50x lens magnification. We also perform flexible discriminant analyses (FDA) to infer the function of the bone tool from surface textural parameters. Our results suggest that FDA and morphometric data on the striations may be combined to infer the function of expedient bone tools with high accuracy.
ISSN:2352-409X
2352-4103
DOI:10.1016/j.jasrep.2023.104027