How to Climb a Tree: Lizards Accelerate Faster, but Pause More, When Escaping on Vertical Surfaces
Document Type
Article
Publication Date
1-2011
Publication Title
Biological Journal of Linnean Society
DOI
10.1111/j.1095-8312.2010.01564.x
ISSN
1095-8312
Abstract
Many species of lizards effectively traverse both two and three-dimensional habitats. However, few studies have examined maximum locomotor performance on different inclines. Do maximum acceleration and velocity differ on a level and inclined surface? Do lizards pause more on an inclined surface? To address these questions, Sceloporus woodi lizards (N = 12) were run in the laboratory on a level trackway and a vertical tree trunk. This species is known to frequently utilize both vertical and horizontal aspects of its habitat. Average maximum acceleration on the vertical surface exceeded that on the level surface, although average maximum velocity exhibited the opposite pattern. The average number of pauses during level locomotion was lower compared to vertical locomotion. In addition, the average location of the first pause on the level surface was 0.51 m, which is farther than the average for vertical locomotion where the first pause was at 0.35 m. The combination of performance and pause data suggests that the relative lack of pausing during level locomotion allows individuals to reach higher maximum velocities on level surfaces because they accelerate over greater distances. The increased pausing when moving vertically could be a result of high energetic demands of vertical locomotion, or greater microhabitat complexity as a result of branching and/or refuges. The faster acceleration exhibited during vertical locomotion by S. woodi likely offsets the frequent pauses.
Recommended Citation
Higham, Timothy E., Paul G. Korchari, Lance D. McBrayer.
2011.
"How to Climb a Tree: Lizards Accelerate Faster, but Pause More, When Escaping on Vertical Surfaces."
Biological Journal of Linnean Society, 102 (1): 83-90.
doi: 10.1111/j.1095-8312.2010.01564.x source: https://academic.oup.com/biolinnean/article/102/1/83/2450612
https://digitalcommons.georgiasouthern.edu/biology-facpubs/90