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Body mass and encephalization in Pleistocene Homo

Author

Listed:
  • Christopher B. Ruff

    (Johns Hopkins University School of Medicine)

  • Erik Trinkaus

    (University of New Mexico
    URA 376 du C.N.R.S., Universite de Bordeaux I)

  • Trenton W. Holliday

    (College of William and Mary)

Abstract

Many dramatic changes in morphology within the genus Homo have occurred over the past 2 million years or more, including large increases in absolute brain size and decreases in postcanine dental size and skeletal robusticity. Body mass, as the 'size' variable against which other morphological features are usually judged, has been important for assessing these changes1–5. Yet past body mass estimates for Pleistocene Homo have varied greatly, sometimes by as much as 50% for the same individuals2,3,6–12. Here we show that two independent methods of body-mass estimation yield concordant results when applied to Pleistocene Homo specimens. On the basis of an analysis of 163 individuals, body mass in Pleistocene Homo averaged significantly (about 10%) larger than a representative sample of living humans. Relative to body mass, brain mass in late archaic H. sapiens (Neanderthals) was slightly smaller than in early 'anatomically modern' humans, but the major increase in encephalization within Homo occurred earlier during the Middle Pleistocene (600–150 thousand years before present (kyr BP)), preceded by a long period of stasis extending through the Early Pleistocene (1,800 kyr BP).

Suggested Citation

  • Christopher B. Ruff & Erik Trinkaus & Trenton W. Holliday, 1997. "Body mass and encephalization in Pleistocene Homo," Nature, Nature, vol. 387(6629), pages 173-176, May.
    • Handle: RePEc:nat:nature:v:387:y:1997:i:6629:d:10.1038_387173a0
    DOI: 10.1038/387173a0
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    Cited by:

    1. Francesconi, Marco & Ghiglino, Christian & Perry, Motty, 2009. "On the Origin of the Family," IZA Discussion Papers 4637, Institute of Labor Economics (IZA).
    2. Hilmi Uysal & Hüseyin Tuğrul Atasoy & Uğur Bilge, 2017. "An essay on the biological origin of producing surplus value by human labor," Journal of Bioeconomics, Springer, vol. 19(2), pages 187-199, July.
    3. Jason Collins & Boris Baer & Ernst Juerg Weber, 2013. "Population, Technological Progress and the Evolution of Innovative Potential," Economics Discussion / Working Papers 13-21, The University of Western Australia, Department of Economics.
    4. Mauricio González-Forero & Timm Faulwasser & Laurent Lehmann, 2017. "A model for brain life history evolution," PLOS Computational Biology, Public Library of Science, vol. 13(3), pages 1-28, March.
    5. Mauricio González-Forero, 2024. "Evolutionary–developmental (evo-devo) dynamics of hominin brain size," Nature Human Behaviour, Nature, vol. 8(7), pages 1321-1333, July.
    6. Peñaherrera-Aguirre, Mateo & Sarraf, Matthew A. & Woodley of Menie, Michael A. & Miller, Geoffrey F., 2023. "The ten-million-year explosion: Paleocognitive reconstructions of domain-general cognitive ability (G) in extinct primates," Intelligence, Elsevier, vol. 101(C).
    7. Lagerlöf, Nils-Petter, 2007. "Long-Run Trends In Human Body Mass," Macroeconomic Dynamics, Cambridge University Press, vol. 11(3), pages 367-387, June.
    8. Horan, Richard D. & Shogren, Jason F. & Bulte, Erwin H., 2011. "Joint determination of biological encephalization, economic specialization," Resource and Energy Economics, Elsevier, vol. 33(2), pages 426-439, May.

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