Abstract
Archaeopteryx has played a central role in the debates on the origins of avian (and dinosaurian) flight, even though as a flier it probably represents a relatively late stage in the beginnings of flight. We report on aerodynamic tests using a life-sized model of Archaeopteryx performing in a low turbulence wind tunnel. Our results indicate that tail deflection significantly decreased take-off velocity and power consumption, and that the first manual digit could have functioned as the structural precursor of the alula. Such results demonstrate that Archaeopteryx had already evolved high-lift devices, which are functional analogues of those present in today’s birds.
Author supplied keywords
Cite
CITATION STYLE
Meseguer, J., Chiappe, L. M., Sanz, J. L., Ortega, F., Sanz-Andrés, Á., Pérez-Grande, I., & Franchini, S. (2012). Lift devices in the flight of Archaeopteryx. Spanish Journal of Palaeontology, 27(2), 125–130. https://doi.org/10.7203/sjp.27.2.18120
Register to see more suggestions
Mendeley helps you to discover research relevant for your work.
