Allometric inter-relationships between jaw musculature mass, skull size and body mass in Psittaciformes

IF 0.4 Q4 ORNITHOLOGY

Ornis Hungarica Pub Date : 2022-11-25 DOI:10.2478/orhu-2022-0019

Shannon L. Harrison, G. Sutton, D. Deeming

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引用次数: 0

Abstract

Abstract Functional characteristics of the jaw apparatus, for example bite force, in vertebrates is a combination of the skeleton and the musculature. In birds, bite force has been measured directly or calculated using various methods including summation of forces generated by the different elements of the jaw musculature. However, there have been no reports of the relationships between body size with the mass of the different muscle groups in a closely related group of birds. This study explored allometry in the different jaw muscle masses from parrot (Psittaciformes) species differing in body mass by 40-fold. It was hypothesised that the different muscle masses would exhibit isometry with body mass and skull size. Parrot heads were dissected and the masses of the individual muscle complexes were recorded. Data were subjected to phylogenetically-controlled regression analysis to document scaling effects with body mass and skull size. Most, but not all muscles, exhibited positive allometry with body mass but most were isometric with skull size. Consequently, as parrots get bigger, their skulls get proportionally longer, but that the muscles within the head isometrically scaled relative to the size of these proportionally larger skulls. The large muscles imply greater bite forces in parrots than have been reported to date, which seems to be associated with an increase in skull size to accommodate more muscles. It is unknown whether this pattern is applicable to other birds within specific orders or even across birds as a whole. There needs to be further investigation into the allometry of the morphological and functional properties of the avian jaw musculature.

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Psittaciformes颌骨肌肉组织质量、颅骨大小和体重的异速相互关系

脊椎动物颚部器官的功能特征，如咬合力，是骨骼和肌肉组织的结合。在鸟类中，咬合力已被直接测量或使用各种方法计算，包括由颌骨肌肉组织的不同元素产生的力的总和。然而，在近亲鸟类中，还没有关于体型与不同肌肉群质量之间关系的报道。本研究探讨了体重相差40倍的鹦鹉(鹦鹉形目)不同颚肌质量的异速生长。据推测，不同的肌肉质量与身体质量和头骨大小是等距的。解剖鹦鹉头部，记录单个肌肉复合体的质量。对数据进行系统发育控制的回归分析，以记录体重和颅骨尺寸的比例效应。大多数(但不是全部)肌肉与体重呈正异速增长，但大多数肌肉与头骨大小呈等距增长。因此，随着鹦鹉变大，它们的头骨按比例变长，但头部的肌肉相对于这些按比例变大的头骨的大小是等距缩放的。大肌肉意味着鹦鹉的咬合力比迄今为止报道的要大，这似乎与头骨尺寸的增加有关，以容纳更多的肌肉。目前尚不清楚这种模式是否适用于特定目内的其他鸟类，甚至适用于整个鸟类。鸟类颚部肌肉组织的形态和功能特性的异速性有待进一步研究。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Ornis Hungarica Agricultural and Biological Sciences-Animal Science and Zoology

CiteScore

0.90

自引率

0.00%

发文量

审稿时长

20 weeks