How does agility evolve? This question is challenging because natural movement has many degrees of freedom and can be influenced by multiple traits. We used computer vision to record thousands of translations, rotations, and turns from more than 200 hummingbirds from 25 species, revealing that distinct performance metrics are correlated and that species diverge in their maneuvering style. Our analysis demonstrates that the enhanced maneuverability of larger species is explained by their proportionately greater muscle capacity and lower wing loading. Fast acceleration maneuvers evolve by recruiting changes in muscle capacity, whereas fast rotations and sharp turns evolve by recruiting changes in wing morphology. Both species and individuals use turns that play to their strengths. These results demonstrate how both skill and biomechanical traits shape maneuvering behavior.

Additional Metadata
Persistent URL dx.doi.org/10.1126/science.aao7104
Journal Science
Citation
Dakin, R, Segre, P.S. (Paolo S.), Straw, A.D. (Andrew D.), & Altshuler, D.L. (Douglas L.). (2018). Morphology, muscle capacity, skill, and maneuvering ability in hummingbirds. Science, 359(6376), 653–657. doi:10.1126/science.aao7104