Technical note: A volumetric method for measuring the longitudinal arch of human tracks and feet |
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Authors: | Kevin G. Hatala Stephen M. Gatesy Armita R. Manafzadeh Elizabeth M. Lusardi Peter L. Falkingham |
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Affiliation: | 1. Department of Biology, Chatham University, Pittsburgh, Pennsylvania, USA;2. Department of Ecology, Evolution, and Organismal Biology, Brown University, Providence, Rhode Island, USA;3. Department of Biology, Chatham University, Pittsburgh, Pennsylvania, USA Contribution: Formal analysis (supporting), Investigation (supporting), Writing - review & editing (equal);4. School of Biological and Environmental Sciences, Liverpool John Moores University, Liverpool, UK |
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Abstract: | Fossil footprints (i.e., tracks) were believed to document arch anatomical evolution, although our recent work has shown that track arches record foot kinematics instead. Analyses of track arches can thereby inform the evolution of human locomotion, although quantifying this 3-D aspect of track morphology is difficult. Here, we present a volumetric method for measuring the arches of 3-D models of human tracks and feet, using both Autodesk Maya and Blender software. The method involves generation of a 3-D object that represents the space beneath the longitudinal arch, and measurement of that arch object's geometry and spatial orientation. We provide relevant tools and guidance for users to apply this technique to their own data. We present three case studies to demonstrate potential applications. These include, (1) measuring the arches of static and dynamic human feet, (2) comparing the arches of human tracks with the arches of the feet that made them, and (3) direct comparisons of human track and foot arch morphology throughout simulated track formation. The volumetric measurement tool proved robust for measuring 3-D models of human tracks and feet, in static and dynamic contexts. This tool enables researchers to quantitatively compare arches of fossil hominin tracks, in order to derive biomechanical interpretations from them, and/or offers a different approach for quantifying foot morphology in living humans. |
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Keywords: | fossil footprints longitudinal arch tracks |
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