An actualistic experimental study of giant quartzite core reduction strategies: 
implications for large flake blank production and handaxe manufacture at Amanzi 
Springs, South Africa

Wilson, Coen G.; Caruana, Matthew V.; Bradley, Bruce; Muir, Robert A.; Blackwood, Alexander; Herries, Andy I. R.

doi:10.1080/00934690.2024.2401284

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An actualistic experimental study of giant quartzite core reduction strategies: implications for large flake blank production and handaxe manufacture at Amanzi Springs, South Africa

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Blackwood, Alexander
Human-Palaeosystems Independent Research Group, Max Planck Institute of Geoanthropology, Max Planck Society;

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Citation

Wilson, C. G., Caruana, M. V., Bradley, B., Muir, R. A., Blackwood, A., & Herries, A. I. R. (2024). An actualistic experimental study of giant quartzite core reduction strategies: implications for large flake blank production and handaxe manufacture at Amanzi Springs, South Africa. Journal of Field Archaeology, 2401284, pp. 1-17. doi:10.1080/00934690.2024.2401284.

Cite as: https://hdl.handle.net/21.11116/0000-000F-E759-9

Abstract

The later Acheulian assemblages (ca. 534–< 390 ka) from Amanzi Springs in South Africa show a preferential selection for large flake blanks when undertaking large cutting tool manufacture. However, due to the small number of giant cores from the site, we have limited insight into the technical preparation of quartzite raw material packages for large flake production. Here, we present an actualistic experimental study to better understand these procedures at the site and to gain perspective on how knappers may have reduced quartzite boulders of differing internal qualities. Our results highlight the influence of raw material constraints and how the overall morphology of quartzite boulders in turn impacts giant core reduction sequences and large flake blank morphologies. Finally, the experimental study exemplifies the need for high levels of knapping expertise to deal with tough, heterogeneous quartzite varieties.