Paulo Roberto Custodio de Oliveira, Pedro Trevizan-Baú, Ray Brasil Bueno de Souza, Wilfried Klein
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引用次数: 0
Abstract
Testudines possess a rigid shell that influences the mechanics of the respiratory system. We studied respiratory mechanics in the terrestrial red-footed tortoise Chelonoidis carbonarius (Cryptodira), comparing juvenile individuals with a less ossified and more flexible carapace with adults with a well-ossified rigid shell. Combined with these ontogenetic differences, we analyzed respiratory system mechanics with animals in a supine and a prone position, as well as in the isolated lungs, to evaluate the impact of the viscera on breathing mechanics. To do so, we used established protocols to measure pulmonary volume (i.e. resting, VLr; and maximum, VLm), static (Cstat) and dynamic (Cdyn) compliance, and the work of breathing (W). We observed that isolated lungs displayed increased VLr, VLm, Cstat and Cdyn and decreased W. Additionally, pulmonary volume, compliance and W were affected by evaluated position, such as a smaller VLr in a supine position. Cdyn and W showed a volume dependency while frequency had less influence on these variables. At similar levels of ventilation, juveniles showed a lower W than adults when standardized by body mass, but similar W when standardized by VLr. Clear ontogenetic changes could be observed in breathing mechanics between juvenile and adult C. carbonarius. While these differences might largely be explained by variation in shell ossification, other explanations such as differences in visceral proportions or developmental degree of the post-pulmonary septum should also be taken into account.
陆龟拥有坚硬的外壳,这影响了呼吸系统的力学。我们研究了陆生红脚陆龟(Chelonoidis carbonarius)(隐龟)的呼吸力学,比较了骨化程度较低、躯壳较灵活的幼龟个体和骨化程度较高、躯壳坚硬的成龟个体。结合这些个体发育差异,我们分析了动物仰卧、俯卧以及离体肺部的呼吸系统力学,以评估内脏对呼吸力学的影响。为此,我们采用既定方案测量肺容量(即静息肺容量VLr和最大肺容量VLm)、静态顺应性(Cstat)和动态顺应性(Cdyn)以及呼吸功(W)。我们观察到,孤立肺的 VLr、VLm、Cstat 和 Cdyn 均有所增加,而 W 则有所减少。Cdyn 和 W 与肺活量有关,而频率对这些变量的影响较小。在相似的通气水平下,以体重为标准,幼体的 W 值低于成体,但以 VLr 为标准,幼体的 W 值与成体相似。可以观察到幼体和成体碳腹鱼的呼吸力学发生了明显的个体发育变化。虽然这些差异在很大程度上可以用贝壳骨化的变化来解释,但也应考虑到其他原因,如内脏比例或肺后隔发育程度的差异。
期刊介绍:
Journal of Experimental Biology is the leading primary research journal in comparative physiology and publishes papers on the form and function of living organisms at all levels of biological organisation, from the molecular and subcellular to the integrated whole animal.