Post‐hatching growth of the limbs in an altricial bird species

• Published in: Veterinary medicine and science Vol. 7; no. 1; pp. 210 - 218
• Main Authors: Yan, Jianjian, Zhang, Zihui
• Format: Journal Article
• Language: English
• Published: England John Wiley & Sons, Inc 01.01.2021; John Wiley and Sons Inc
• Subjects: Age; Allometry; altricial; Birds; Body mass; Bones; Confidence intervals; Gliding; Growth patterns; Hatching; Humerus; Legs; limb bone; Locomotion; Mechanical loading; ontogenetic allometry; Ontogeny; Original; Physiology; pigeon; Prenatal development; Tibiotarsus; pigeon; ontogenetic allometry; altricial; limb bone
• ISSN: 2053-1095; 2053-1095
• DOI: 10.1002/vms3.357

The fore‐ and hindlimbs of birds are specialized to perform different functions. The growth patterns of limb bones and their relationship with the ontogeny of locomotion are critical to our understanding of variation in morphological, physiological and life‐history traits within and among species. Unfortunately, the ontogenetic development of limb bones has not been well explored, especially in altricial birds. In this study, we sampled the entire measurements of the pigeon (Columba livia) of individual skeletons, to investigate the ontogenetic allometry of limb bones by reduced major axis regression. The ulna and humerus were found to be positively allometric in relation to body mass, with the ulna growing more rapidly than the humerus. Together with previous data, this suggests that strong positive allometric growth in forelimb bones could be a common trend among diverse Carinatae groups. Hindlimb was dominated by positive allometry, but was variable in the growth of the tarsometatarsus which included three allometric patterns. A greater dorsoventral diameter in the midsection of the humerus and ulna confers superior bending resistance and is ideal for flapping/gliding flight. Shape variation in the midsection of different hindlimb components reflects different mechanical loading, and the markedly inverse trend between the tibiotarsus and tarsometatarsus before 28 days of age also suggests loading change before fledging. Before fledging, the growth of the leg bones was prior to that of the wing bones. This kind of asynchronous development of the fore‐ and hindlimbs was associated with the establishment and improvement of different functions, and with shifts in the importance of different functions over time. Post‐natal growth of limb bones was less explored, especially for altricial birds. We use detailed measurements, including width and depth of the proximal and distal ends, rather than the traditional focus on the length and midshaft width to investigate the ontogenetic allometry of the pigeon (Columba livia). The results of this study provide valuable information in poultry management, and are necessary for kinetics and kinematics studies.