The Soft Palate Enables Extreme Feeding and Explosive Breathing in the Fin Whale (Balaenoptera physalus).

IF 2.2 4区 生物学 Q2 BIOLOGY Integrative Organismal Biology Pub Date : 2024-07-09 eCollection Date: 2024-01-01 DOI:10.1093/iob/obae026
A W Vogl, H Petersen, K N Gil, R Cieri, R E Shadwick
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Abstract

The evolution of lunge feeding in rorqual whales was associated with the evolution of several unique morphological features that include non-synovial ligamentous temporomandibular joints, a tongue that can invert and extend backward to the umbilicus, walls of the oral cavity that can dramatically expand, and muscles and nerves that are stretchy. Also, among the acquired features was an enlargement of the rostral end of the soft palate into an oral plug that occludes the opening between the oral cavity and pharynx and prevents water incursion into the pharynx during the engulfment phase of a feeding lunge. During this engulfment phase of a lunge, the volume of water entering the oral cavity can exceed the volume of the whale itself. Here, using dissection of fetuses and adults and a magnetic resonance imaging dataset of a fetus, we examine the detailed anatomy of the soft palate in fin whales. We describe several innovative features relative to other mammals, including changes in the attachment and positions of the major extrinsic muscles of the palate, alterations in the morphology of the pterygoid processes related to the palate and pharynx, and the presence of distinct muscle layers in the part of the palate caudal to the oral plug. Based on the anatomy, we present a model for how the soft palate is positioned at rest, and how it functions during feeding, breathing, and swallowing.

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软腭使长须鲸(Balaenoptera physalus)能够进行极限进食和爆炸性呼吸。
大脊背鲸匍匐进食的进化与几种独特形态特征的进化有关,其中包括非鞘翅韧带颞下颌关节、可反转并向后延伸至脐部的舌头、可急剧扩张的口腔壁以及具有伸缩性的肌肉和神经。此外,后天获得的特征还包括软腭喙端增大,形成一个口塞,堵住口腔和咽部之间的开口,防止水在进食的吞咽阶段侵入咽部。在吞食阶段,进入口腔的水量可能超过鲸鱼本身的体积。在这里,我们利用对胎儿和成年鲸的解剖以及胎儿的磁共振成像数据集,研究了长须鲸软腭的详细解剖结构。我们描述了长须鲸相对于其他哺乳动物的一些创新特征,包括腭部主要外侧肌肉附着和位置的变化、与腭和咽有关的翼突形态的改变,以及在腭尾部至口腔栓的部分存在不同的肌肉层。在解剖学的基础上,我们提出了一个模型,说明软腭在静止时的位置,以及在进食、呼吸和吞咽时的功能。
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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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