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Cursoriality in bipedal archosaurs

Author

Listed:
  • Terry D. Jones

    (Oregon State University
    Stephen F. Austin State University)

  • James O. Farlow

    (Indiana-Purdue University)

  • John A. Ruben

    (Oregon State University)

  • Donald M. Henderson

    (The Johns Hopkins University)

  • Willem J. Hillenius

    (College of Charleston)

Abstract

Modern birds have markedly foreshortened tails and their body mass is centred anteriorly, near the wings1,2,3,4,5. To provide stability during powered flight, the avian centre of mass is far from the pelvis, which poses potential balance problems for cursorial birds. To compensate, avians adapted to running maintain the femur subhorizontally, with its distal end situated anteriorly, close to the animal's centre of mass; stride generation stems largely from parasagittal rotation of the lower leg about the knee joint6,7,8,9,10,11,12. In contrast, bipedal dinosaurs had a centre of mass near the hip joint and rotated the entire hindlimb during stride generation4,5,6,7,8,11,12,13. Here we show that these contrasting styles of cursoriality are tightly linked to longer relative total hindlimb length in cursorial birds than in bipedal dinosaurs. Surprisingly, Caudipteryx , described as a theropod dinosaur14,15, possessed an anterior centre of mass and hindlimb proportions resembling those of cursorial birds. Accordingly, Caudipteryx probably used a running mechanism more similar to that of modern cursorial birds than to that of all other bipedal dinosaurs. These observations provide valuable clues about cursoriality in Caudipteryx , but may also have implications for interpreting the locomotory status of its ancestors.

Suggested Citation

  • Terry D. Jones & James O. Farlow & John A. Ruben & Donald M. Henderson & Willem J. Hillenius, 2000. "Cursoriality in bipedal archosaurs," Nature, Nature, vol. 406(6797), pages 716-718, August.
  • Handle: RePEc:nat:nature:v:406:y:2000:i:6797:d:10.1038_35021041
    DOI: 10.1038/35021041
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    Cited by:

    1. Yaser Saffar Talori & Jing-Shan Zhao & Yun-Fei Liu & Wen-Xiu Lu & Zhi-Heng Li & Jingmai Kathleen O'Connor, 2019. "Identification of avian flapping motion from non-volant winged dinosaurs based on modal effective mass analysis," PLOS Computational Biology, Public Library of Science, vol. 15(5), pages 1-16, May.

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