尾鼠的骨密度变化:浮力、深度、体型和摄食。

IF 2.2 4区 生物学 Q2 BIOLOGY Integrative Organismal Biology Pub Date : 2022-10-16 eCollection Date: 2022-01-01 DOI:10.1093/iob/obac044
Rene P Martin, Abigail S Dias, Adam P Summers, Mackenzie E Gerringer
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引用次数: 1

摘要

深海环境中的极端非生物因素,如接近冰点的温度、低光和高静水压力,推动了适应的进化,使生物能够在这些条件下生存。入侵深海的中上层和底栖鱼类面临着来自深海气体压缩的生理挑战,这限制了气体腔作为浮力辅助的使用。在深海鱼类中观察到的增加浮力的一种适应是高密度组织的减少。在这项研究中,我们分析了尾尾鱼高密度骨组织的矿化,尾尾鱼是一组广泛分布的底栖鱼类,从地表水到超过7000米的深度。我们测试了鼠尾物种的骨密度随着栖息地深度的增加而降低,以适应在高静水压力下生活时保持浮力的假设。我们对15种和20个尾鼠标本进行了微计算机断层扫描(micro-CT),并采用了两种已知羟基磷灰石浓度标准(幻影)来近似体素亮度与骨密度。比较4块骨(第11椎体、下颌、骨盆带和第一背鳍翼突)的骨密度。平均而言,下颌的密度明显高于其他骨骼。我们没有发现骨密度和深度之间的相关性,也没有发现骨密度和系统发育关系之间的相关性。相反,我们观察到骨密度随着物种内部和物种之间标本长度的增加而增加。这项研究增加了越来越多的工作,表明骨密度可以随着鱼类的生长而增加,而骨密度并不会直接随着深度而变化。
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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Bone Density Variation in Rattails (Macrouridae, Gadiformes): Buoyancy, Depth, Body Size, and Feeding.

Extreme abiotic factors in deep-sea environments, such as near-freezing temperatures, low light, and high hydrostatic pressure, drive the evolution of adaptations that allow organisms to survive under these conditions. Pelagic and benthopelagic fishes that have invaded the deep sea face physiological challenges from increased compression of gasses at depth, which limits the use of gas cavities as a buoyancy aid. One adaptation observed in deep-sea fishes to increase buoyancy is a decrease of high-density tissues. In this study, we analyze mineralization of high-density skeletal tissue in rattails (family Macrouridae), a group of widespread benthopelagic fishes that occur from surface waters to greater than 7000 m depth. We test the hypothesis that rattail species decrease bone density with increasing habitat depth as an adaptation to maintaining buoyancy while living under high hydrostatic pressures. We performed micro-computed tomography (micro-CT) scans on 15 species and 20 specimens of rattails and included two standards of known hydroxyapatite concentration (phantoms) to approximate voxel brightness to bone density. Bone density was compared across four bones (eleventh vertebra, lower jaw, pelvic girdle, and first dorsal-fin pterygiophore). On average, the lower jaw was significantly denser than the other bones. We found no correlation between bone density and depth or between bone density and phylogenetic relationships. Instead, we observed that bone density increases with increasing specimen length within and between species. This study adds to the growing body of work that suggests bone density can increase with growth in fishes, and that bone density does not vary in a straightforward way with depth.

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来源期刊
CiteScore
3.70
自引率
6.70%
发文量
48
审稿时长
20 weeks
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