Bernhard Zipfel

University Curator of Fossil and Rock Collections

The Foot and Ankle of Australopithecus sediba


Journal article


B. Zipfel, J. DeSilva, R. Kidd, K. Carlson, S. Churchill, L. Berger
Science, 2011

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APA   Click to copy
Zipfel, B., DeSilva, J., Kidd, R., Carlson, K., Churchill, S., & Berger, L. (2011). The Foot and Ankle of Australopithecus sediba. Science.


Chicago/Turabian   Click to copy
Zipfel, B., J. DeSilva, R. Kidd, K. Carlson, S. Churchill, and L. Berger. “The Foot and Ankle of Australopithecus Sediba.” Science (2011).


MLA   Click to copy
Zipfel, B., et al. “The Foot and Ankle of Australopithecus Sediba.” Science, 2011.


BibTeX   Click to copy

@article{b2011a,
  title = {The Foot and Ankle of Australopithecus sediba},
  year = {2011},
  journal = {Science},
  author = {Zipfel, B. and DeSilva, J. and Kidd, R. and Carlson, K. and Churchill, S. and Berger, L.}
}

Abstract

Australopithecus sediba had a human-like ankle and arch but an ape-like heel and tibia, implying that while bipedal, this species was also adept at climbing trees. A well-preserved and articulated partial foot and ankle of Australopithecus sediba, including an associated complete adult distal tibia, talus, and calcaneus, have been discovered at the Malapa site, South Africa, and reported in direct association with the female paratype Malapa Hominin 2. These fossils reveal a mosaic of primitive and derived features that are distinct from those seen in other hominins. The ankle (talocrural) joint is mostly humanlike in form and inferred function, and there is some evidence for a humanlike arch and Achilles tendon. However, Au. sediba is apelike in possessing a more gracile calcaneal body and a more robust medial malleolus than expected. These observations suggest, if present models of foot function are correct, that Au. sediba may have practiced a unique form of bipedalism and some degree of arboreality. Given the combination of features in the Au. sediba foot, as well as comparisons between Au. sediba and older hominins, homoplasy is implied in the acquisition of bipedal adaptations in the hominin foot.