Sagittal long bone curvature in birds

Annales des Sciences Naturelles - Zoologie et Biologie Animale Pub Date : 1999-10-01 DOI:10.1016/S0003-4339(00)88883-8

Jorge Cubo , Liesbet Menten , Adrià Casinos

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引用次数: 16

Abstract

The maximum sagittal curvature of the long bones (humeras, radius, ulna, femur, tibiotarsus and tarsometatarsus) of 45 specimens of birds, belonging to 36 species, was measured and regressed to the corresponding body mass. Mathematical results show a tendency of curvature to scale with strong positive allometry. Within the species studied, those with more characteristic flapping flight tend to show relatively low values of curvature in the wing bones. To check the agreement of the present results with current hypotheses on the origin of long bone curvature, previous results on scaling of myological and cross-sectional parameters in birds are considered. Indirect evidence suggests that curvature tends to increase bone stresses. Hypotheses that consider curvature as a consequence of the mechanical action of muscle allocation and optimization of functional strains are discussed at length. The possible double genetic-epigenetic determinism of the curvature character is evoked.

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鸟类矢状长骨弯曲

测量了36种45只鸟类标本的长骨(肱骨、桡骨、尺骨、股骨、胫跗骨和跗跖骨)的最大矢状曲率，并将其回归到相应的体重。数学结果表明，曲率的比例倾向与强的正异速。在研究的物种中，那些更具有扑翼飞行特征的物种往往在翼骨上显示出相对较低的曲率值。为了检查当前结果与当前关于长骨弯曲起源的假设的一致性，考虑了先前关于鸟类的骨学和横截面参数的缩放结果。间接证据表明，弯曲倾向于增加骨骼压力。假设考虑曲率作为肌肉分配和优化功能应变的机械作用的结果进行了详细的讨论。提出了曲率特征可能存在的双遗传-表观遗传决定论。

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Annales des Sciences Naturelles - Zoologie et Biologie Animale

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