Autor: |
Young, Melody W., Webster, Clyde, Tanis, Daniel, Schurr, Alissa F., Hanna, Christopher S., Lynch, Samantha K., Ratkiewicz, Aleksandra S., Dickinson, Edwin, Kong, Felix H., Granatosky, Michael C. |
Předmět: |
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Zdroj: |
Journal of Comparative Physiology A: Neuroethology, Sensory, Neural & Behavioral Physiology; Jan2024, Vol. 210 Issue 1, p19-33, 15p |
Abstrakt: |
At what inclination does climbing begin? In this paper, we investigate the transition from walking to climbing in two species of parrot (Agapornis roseicollis and Nymphicus hollandicus) that are known to incorporate both their tail and their craniocervical system into the gait cycle during vertical climbing. Locomotor behaviors ranging in inclination were observed at angles between 0° and 90° for A. roseicollis, and 45°–85° degrees for N. hollandicus. Use of the tail in both species was observed at 45° inclination, and was joined at higher inclinations (> 65°) by use of the craniocervical system. Additionally, as inclination approached (but remained below) 90°, locomotor speeds were reduced while gaits were characterized by higher duty factors and lower stride frequency. These gait changes are consistent with those thought to increase stability. At 90°, A. roseicollis significantly increased its stride length, resulting in higher overall locomotor speed. Collectively these data demonstrate that the transition between horizontal walking and vertical climbing is gradual, incrementally altering several components of gait as inclinations increase. Such data underscore the need for further investigation into how exactly "climbing" is defined and the specific locomotor characteristics that differentiate this behavior from level walking. [ABSTRACT FROM AUTHOR] |
Databáze: |
Complementary Index |
Externí odkaz: |
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