Suffused: baleen fringe mat porosity and hydrodynamics in balaenid and balaenopterid whales

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Jean Potvin, Alexander J Werth
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引用次数: 0

Abstract

Baleen plates of filter-feeding whales are longitudinally fibrous, separating where eroded medially into mats of fringes due to friction from water, prey, and the tongue. The fringes end up spreading-out, in other words suffusing, over the comb-like structure of the baleen assemblage. This study examined the relationships between mat morphology and the hydrodynamics it generates. Samples collected from nine rack locations on a bowhead whale (Balaena mysticetus) and fin whale (Balaenoptera physalus) were investigated with a new technique of mat porosity determination in a flume setting. Porosity was measured in the range of 5–20% and 8–37% in the bowhead and fin whale samples respectively. These were largest ventrally in both species, while remaining somewhat insensitive to the flume’s water speed. A new hydrodynamical model of the through-mat currents was used to estimate speeds of 0.15–3.0 cm/s and mat permeabilities of the order of 10−13 m2, depending on the applied pressure. Finally, and relative to samples collected near the entrance of the mouth, these trends were quantitatively similar in both species. With tongue- and flow-based erosion as the main mechanism for mat creation in all extant mysticetes, our analysis suggests baleen-generated filtration as having emerged early in their evolution.
Suffused:巴拉烯类鲸和巴拉烯蝶类鲸的鲸须边缘垫孔隙率和流体力学
滤食性鲸鱼的须板是纵向纤维状的,由于水、猎物和舌头的摩擦,须板的内侧被侵蚀,分离成垫状的流苏。这些流苏最终向外扩散,换句话说,充斥在鲸须组合的梳状结构上。本研究考察了栉水母形态与其产生的水动力之间的关系。从弓头鲸(Balaena mysticetus)和长须鲸(Balaenoptera physalus)身上的九个齿条位置采集的样本,在水槽环境中采用新的垫层孔隙率测定技术进行了研究。在弓头鲸和长须鲸样本中测量到的孔隙率范围分别为 5-20% 和 8-37%。这两种鲸鱼腹侧的孔隙率最大,同时对水槽的水速不敏感。根据新的通垫水流流体力学模型,估计水流速度为 0.15-3.0 厘米/秒,通垫渗透率为 10-13 平方米,具体取决于施加的压力。最后,相对于在口腔入口附近采集的样本,这两个物种的这些趋势在数量上是相似的。由于舌和水流侵蚀是所有现生神秘髭鲸形成垫层的主要机制,我们的分析表明,须根产生的过滤作用在它们进化的早期就已经出现了。
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
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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