Quantifying knapping actions: a method for measuring the angle of blow on flakes

Li, Li; Reeves, Jonathan; Lin, Sam C.; Tennie, Claudio; McPherron, Shannon P.

doi:10.1007/s12520-022-01626-y

Archaeol Anthropol Sci

2022

DOI: 10.1007/s12520-022-01626-y

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Quantifying knapping actions: a method for measuring the angle of blow on flakes

Li Li

Jonathan Reeves

Sam C. Lin

et al.

Abstract: Stone artifacts are critical for investigating the evolution of hominin behavior—they are among our only proxies for hominin behavior in deep time. Hominin cognition and skill are often inferred by reconstructing the technical decisions hominins made throughout the knapping process. However, despite many advancements in understanding how hominins knapped, some of the key factors involved in past flake production cannot be easily/readily derived from stone artifacts. In particular, the angle at which the knappe… Show more

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Cited by 7 publications

References 76 publications

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A Synthesis of the Dibble et al. Controlled Experiments into the Mechanics of Lithic Production

Lin

McPherron

et al. 2022

J Archaeol Method Theory

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Archaeologists have explored a wide range of topics regarding archaeological stone tools and their connection to past human lifeways through experimentation. Controlled experimentation systematically quantifies the empirical relationships among different flaking variables under a controlled and reproducible setting. This approach offers a platform to generate and test hypotheses about the technological decisions of past knappers from the perspective of basic flaking mechanics. Over the past decade, Harold Dibble and colleagues conducted a set of controlled flaking experiments to better understand flake variability using mechanical flaking apparatuses and standardized cores. Results of their studies underscore the dominant impact of exterior platform angle and platform depth on flake size and shape and have led to the synthesis of a flake formation model, namely the EPA-PD model. However, the results also illustrate the complexity of the flake formation process through the influence of other parameters such as core surface morphology and force application. Here we review the work of Dibble and colleagues on controlled flaking experiments by summarizing their findings to date. Our goal is to synthesize what was learned about flake variability from these controlled experiments to better understand the flake formation process. With this paper, we are including all of the data produced by these prior experiments and an explanation of the data in the Supplementary Information.

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A Synthesis of the Dibble et al. Controlled Experiments into the Mechanics of Lithic Production

Lin

McPherron

et al. 2022

J Archaeol Method Theory

Self Cite

View full text Add to dashboard Cite

show abstract

Inter-site and Intra-site Comparison of Recycling in Paleolithic Surface Contexts of Central Kazakhstan

Coco,

Mamirov

2024

J Paleo Arch

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Did Early Pleistocene hominins control hammer strike angles when making stone tools?

Li,

Reeves,

Lin

et al. 2023

Journal of Human Evolution

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Quantifying knapping actions: a method for measuring the angle of blow on flakes

Cited by 7 publications

References 76 publications

A Synthesis of the Dibble et al. Controlled Experiments into the Mechanics of Lithic Production

A Synthesis of the Dibble et al. Controlled Experiments into the Mechanics of Lithic Production

Inter-site and Intra-site Comparison of Recycling in Paleolithic Surface Contexts of Central Kazakhstan

Did Early Pleistocene hominins control hammer strike angles when making stone tools?

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