Introducing platform surface interior angle (PSIA) and its role in flake formation, size and shape

McPherron, Shannon P.; Abdolahzadeh, Aylar; Archer, Will; Chan, Annie; Djakovic, Igor; Dogandžić, Tamara; Leader, George M.; Li, Li; Lin, Sam C.; Magnani, Matthew; Reeves, Jonathan; Režek, Željko; Weiß, Marcel

doi:10.1371/journal.pone.0241714

Cited by 15 publications

(21 citation statements)

References 41 publications

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“…The first being that the configuration of PW is related not only to PD but also the profile shape of the striking platform. We used the concept of PSIA [36] and predicted that flakes made on a triangular ridged platform should exhibit systematically narrower PW (relative to PD) than those made on platforms that are more circular in profile. The results from the glass flakes match our predictions.…”

Section: Discussionmentioning

confidence: 99%

“…To clarify these issues, it is necessary to look more closely at the way in which PW forms during fracture. In a recent study, McPherron et al [36] noted that the fracture propagating from the point of percussion out towards the exterior platform surface occurs at a more or less constant angle, likely stemming from the Hertzian cone angle. They create a new measure, platform surface interior angle (PSIA), to quantify this observation.…”

Section: Introductionmentioning

confidence: 99%

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The mediating effect of platform width on the size and shape of stone flakes

et al. 2022

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To understand the ways in which past stone knappers controlled the morphology of the flakes they produced, archaeologists have focused on examining the effects of striking platform attributes on flake size and shape. Among the variables commonly considered, platform width has routinely been noted to correlate with flake size and hence used to explain past knapping behaviors. Yet, the influence of platform width on flake variation remains equivocal due to the fact that the attribute is not under the direct control of the knapper. Instead, platform width tends to be treated as a by-product of other independent knapping parameters, such as platform depth. In this study, we hypothesize that platform width acts as an intermediary that intervenes the effect of other independent variables on flake attributes. By analyzing experimental flakes produced under both controlled and replicative settings, the results support the hypothesis that platform width mediates the effect of platform depth on flake width, such that flakes with relatively larger platform widths are generally wider but no longer. This finding provides a way to incorporate platform width into discussions of the interrelationships among knapping variables, and highlights the importance of platform width for investigating how past knappers controlled flake production through platform manipulation.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

The mediating effect of platform width on the size and shape of stone flakes

et al. 2022

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“…The linear model results show that the angle of blow is an important knapping parameter that can help improve our ability to explain flake variation using independent flake variables, such as exterior platform angle and platform depth. The current EPA-PD model of flake formation derived from the controlled experiments by Dibble and colleagues only addresses a portion of the variation in flake size and shape (Dibble and Rezek 2009;Rezek et al 2011;Magnani et al 2014;Leader et al 2017;Dogandžić et al 2020;McPherron et al 2020). The EPA-PD model often performs less well when applied to less controlled experimental replication assemblages and archeological assemblages.…”

Section: Discussionmentioning

confidence: 99%

“…Knappers need to flexibly apply different manual gestures along the knapping sequence to Department of Human Evolution, Max Planck Institute for Evolutionary Anthropology, Deutscher Platz 6, 04103 Leipzig, Germany effectively navigate the changing interactions among different functional parameters, including configurations of the striking platform and various force application variables like the hammer striking speed and angle (Roussel et al 2009;Geribàs et al 2010;Rein et al 2013;Vernooij et al 2015;Baena et al 2017;Cueva-Temprana et al 2019). Some studies of modern knappers suggest that these gestural skills and "know-hows" may be acquired through learning and practice, highlighting the significance of cultural transmission in hominin stone tool making (Lycett 2013;Morgan et al 2015;Lycett et al 2016;Pargeter et al 2019). There are also studies that suggest that the technical "know-how" required for making early stone tools can be acquired via individual learning (Tennie et al 2016(Tennie et al , 2017Snyder et al in press).…”

Section: Introductionmentioning

confidence: 99%

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

Reeves

Lin

et al. 2022

Archaeol Anthropol Sci

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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 knapper strikes the hammer against the core to remove the flake, or the angle of blow, is a key component of the knapping process that has up to now remained unmeasurable on archeological assemblages. In this study, we introduce a new method for estimating the angle of blow from the ventral surface of flakes. This method was derived from a controlled experiment that explicitly connects fracture mechanics to flake variability. We find that a feature of the flake’s bulb of percussion, what we call the bulb angle, is a measurable indicator of the angle of blow. Our experimental finding is further validated in two additional datasets from controlled and replicative knapping experiments. These results demonstrate the utility of continuing to link flake variation with technical decision-making to fracture mechanics. In addition, they also provide a useful and relatively simple means to capture a currently invisible aspect of hominin stone tool production behavior.

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“…For example, knappers have long used copper pressure flakers or percussion "boppers" as a substitute for antler pressure flakers or billets (Whittaker, 1994(Whittaker, , 2004. Experimenters have used both glass and porcelain as substitutes for conchoidally fractured stone (Dibble and Pelcin, 1995;Dibble and Rezek, 2009;Dogandžic ́et al, 2020;Hecht et al, 2015;Iovita et al, 2014Iovita et al, , 2016Khreisheh et al, 2013;McPherron et al, 2020;Rezek et al, 2011;Speer, 2018;Stout et al, 2015), and foam, plasticine, and even potatoes have been used as substitutes for stone specifically or reductive materials more generally (Clarkson, 2017;Schillinger et al, 2014aSchillinger et al, , 2014bSchillinger et al, , 2015Schillinger et al, , 2016Schillinger et al, , 2017. Some recent experiments have featured conchoidally fracturing stone specimens that were ground into shape with modern lapidary equipment, rather than knapped (e.g.…”

Section: Introductionmentioning

confidence: 99%

Another tool in the experimental toolbox: On the use of aluminum as a substitute for chert in North American prehistoric ballistics research and beyond

Eren¹,

Mukusha²,

Lierenz³

et al. 2022

North American Archaeologist

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Experimental archaeology continues to mature methodologically and theoretically. Around the world, practitioners are increasingly using modern materials that would have been unavailable to prehistoric people in archaeological experiments. The use of a modern material substitute can offer several benefits to experimental method, design, control, replicability, feasibility, and cost, but it should be directly compared to its “traditional” analogue to understand similarities and differences. Here, aluminum is introduced as a substitute for chert in prehistoric ballistics research because, critically, aluminum is safe, inexpensive, easy to process, and it and chert possess densities that differ by less than 4%. The aluminum casting process for replicating stone artifacts is presented, and it is shown that the aluminum castings are essentially identical in form, flake-scar patterning, and mass to their stone counterparts. We then present a proof-of-concept ballistics experiment that demonstrates no difference between aluminum and stone points in terms of target penetration.

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Introducing platform surface interior angle (PSIA) and its role in flake formation, size and shape

Cited by 15 publications

References 41 publications

The mediating effect of platform width on the size and shape of stone flakes

The mediating effect of platform width on the size and shape of stone flakes

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

Another tool in the experimental toolbox: On the use of aluminum as a substitute for chert in North American prehistoric ballistics research and beyond

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