Higher-order phylogeny of modern birds (Theropoda, Aves: Neornithes) based on comparative anatomy: I. methods and characters

@inproceedings{Livezey2006HigherorderPO,
  title={Higher-order phylogeny of modern birds (Theropoda, Aves: Neornithes) based on comparative anatomy: I. methods and characters},
  author={B. Livezey and R. Zusi},
  year={2006}
}
  • B. Livezey, R. Zusi
  • Published 2006
  • Biology
  • 156 Citations
    Scaling of avian bipedal locomotion reveals independent effects of body mass and leg posture on gait
    • 11
    • Highly Influenced
    • PDF
    Five well-supported fossil calibrations within the "Waterbird" assemblage (Tetrapoda, Aves)
    • 6
    • Highly Influenced
    • PDF
    Spina cortica and Tapetum spinosus, two new microstructures of flight feathers: description, function and distribution in modern birds.
    • 1
    • Highly Influenced
    • PDF
    Evidence of Late Miocene Peri-Tibetan Aridification From the Oldest Asian Species of Sandgrouse (Aves: Pteroclidae)
    • 1
    • Highly Influenced
    • PDF
    Advances on tinamou phylogeny: an assembled cladistic study of the volant palaeognathous birds
    • 9
    • Highly Influenced
    Foot shape in arboreal birds: two morphological patterns for the same pincer‐like tool
    • 5
    • Highly Influenced
    • PDF
    Phylogenetically vetted and stratigraphically constrained fossil calibrations within Aves
    • 20
    • Highly Influenced
    • PDF