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Avian Wing Proportions and Flight Styles: First Step towards Predicting the Flight Modes of Mesozoic Birds

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  • Xia Wang
  • Alistair J McGowan
  • Gareth J Dyke

Abstract

We investigated the relationship between wing element proportions and flight mode in a dataset of living avian species to provide a framework for making basic estimates of the range of flight styles evolved by Mesozoic birds. Our results show that feather length (fprim) and total arm length (ta) (sum of the humerus, ulna and manus length) ratios differ significantly between four flight style groups defined and widely used for living birds and as a result are predictive for fossils. This was confirmed using multivariate ordination analyses, with four wing elements (humerus, ulna/radius, manus, primary feathers), that discriminate the four broad flight styles within living birds. Among the variables tested, manus length is closely correlated with wing size, yet is the poorest predictor for flight style, suggesting that the shape of the bones in the hand wing is most important in determining flight style. Wing bone thickness (shape) must vary with wing beat strength, with weaker forces requiring less bone. Finally, we show that by incorporating data from Mesozoic birds, multivariate ordination analyses can be used to predict the flight styles of fossils.

Suggested Citation

  • Xia Wang & Alistair J McGowan & Gareth J Dyke, 2011. "Avian Wing Proportions and Flight Styles: First Step towards Predicting the Flight Modes of Mesozoic Birds," PLOS ONE, Public Library of Science, vol. 6(12), pages 1-8, December.
    • Handle: RePEc:plo:pone00:0028672
    DOI: 10.1371/journal.pone.0028672
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    References listed on IDEAS

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    1. Phillip Burgers & Luis M. Chiappe, 1999. "The wing of Archaeopteryx as a primary thrust generator," Nature, Nature, vol. 399(6731), pages 60-62, May.
    2. Xing Xu & Xiaoting Zheng & Hailu You, 2010. "Exceptional dinosaur fossils show ontogenetic development of early feathers," Nature, Nature, vol. 464(7293), pages 1338-1341, April.
    3. Dongyu Hu & Lianhai Hou & Lijun Zhang & Xing Xu, 2009. "A pre-Archaeopteryx troodontid theropod from China with long feathers on the metatarsus," Nature, Nature, vol. 461(7264), pages 640-643, October.
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    1. Joan Garcia-Porta & Daniel Sol & Matt Pennell & Ferran Sayol & Antigoni Kaliontzopoulou & Carlos A. Botero, 2022. "Niche expansion and adaptive divergence in the global radiation of crows and ravens," Nature Communications, Nature, vol. 13(1), pages 1-11, December.

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