Body mass estimation in paleontology: a review of volumetric techniques

Charlotte Brassey

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    Abstract

    Body mass is a key parameter for understanding the physiology, biomechanics and ecology of an organism. Within paleontology, body mass is a fundamental prerequisite for many studies considering body size evolution, survivorship patterns and the occurrence of dwarfism and gigantism. The conventional method for estimating fossil body mass relies upon allometric scaling relationships derived from skeletal metrics of extant taxa. Yet the recent application of 3D imaging techniques (including surface laser scanning, computed tomography and photogrammetry) to paleontology has allowed for the rapid digitization of fossil specimens. Volumetric mass estimation methods based on whole articulated skeletons are therefore becoming increasingly popular. Volume-based approaches offer several advantages, including the ability to reconstruct mass distribution around the body, and their relative insensitivity to particularly robust or gracile elements, i.e., the so-called ‘one bone effect’. Yet their application to the fossil record will always be limited by the paucity of well-preserved specimens. Furthermore, uncertainties with regards to skeletal articulation, body density and soft tissue distribution must be acknowledged and their effects quantified. Future work should focus on extant taxa to improve our understanding of body composition and increase confidence in volumetric model input parameters.
    Original languageEnglish
    Pages (from-to)133-156
    Number of pages24
    JournalThe Paleontological Society. Papers
    Volume22
    Early online date27 Apr 2017
    DOIs
    Publication statusPublished - 2017

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