Abstract
This study uses data extracted from 3D models to compare blade cores from the Châtelperronian and Protoaurignacian stone tool industries. These technocomplexes are at the center of the debate surrounding the interactions between Neanderthals and anatomically modern humans approximately 45 to 40,000 years ago. We created 3D models of lithic cores from the sites of Roc de Combe and Les Cottes using a standardized photogrammetry protocol. We then used data derived from these 3D models to make quantitative comparisons of artifact attributes that have previously been argued to distinguish the two stone tool industries in question. These attributes include the angle between the platform and flaking surfaces, the shape of core cross sections, and the angle between core axes. The conception of this study was not to privilege the use of new technological and statistical approaches over more traditional or qualitative forms of lithic analysis. Rather, our aim was to experiment with using digital tool to develop nuanced, reproducible ways to describe variability in lithic artifacts. Our results support the hypothesis that there is a difference in the angle between core surfaces between these two industries. Our analysis also indicates a difference in the angle between core axes, although we are more cautious in interpreting these results. An elliptical Fourier analysis of core cross section shape was inconclusive. We discuss what archaeological and methodological factors may have contributed to our results, and the roles of both qualitative and quantitative observations in archaeological research. 3D artifact models generated for this study are included as supplemental data and are available for use by other researchers.
Highlights
Over the last decade the field of lithic analysis has seen a surge in the use of digital tools and an increased interest in the application of non-traditional statistical methods
Our hypothesis that Châtelperronian cores have a higher angle between platform and flaking surfaces compared to Protoaurignacian cores was supported
A two-tailed Student’s t-test assuming equal variance of the principal component values of the combined Châtelperronian and the Protoaurignacian sample on PC3 returned a result of p = 0.804. This coupled with the low percentage of variation explained by PC3 means this analysis failed to confirm the hypothesized difference in angularity between Châtelperronian and Protoaurignacian cores in cross section
Summary
Over the last decade the field of lithic analysis has seen a surge in the use of digital tools and an increased interest in the application of non-traditional statistical methods. In Upper Paleolithic contexts, the variability of blades cores is notoriously difficult to describe. Upper Paleolithic cores are often typed based on their overall shape as being pyramidal or prismatic (Inizan et al 1995). Developing sets of continuous variables to capture the diversity in blade core technology would be a significant step forward, and would give researchers an additional tool to better describe and compare artifacts across typologies and technocomplexes in a reproducible manner
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