Organization and Ontogeny of a Complex Lateral Line System in a Goby (Elacatinus lori), with a Consideration of Function and Ecology

IF 2.6 Q2 Agricultural and Biological Sciences Copeia Pub Date : 2020-12-18 DOI:10.1643/CG-19-341
Katie R. Nickles, Yinan Hu, J. Majoris, P. Buston, J. Webb
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引用次数: 6

Abstract

Gobies (family Gobiidae) have a complex mechanosensory lateral line system characterized by reduced lateral line canals and a dramatic proliferation of small superficial neuromasts (on “sensory papillae”), which are arranged in lines on the head, trunk, and tail. A suite of morphological methods was used to describe the distribution and morphology of canal and superficial neuromasts in the neon goby, Elacatinus lori, and to describe the ontogeny of the lateral line system for the first time for any gobiiform fish. Portions of only three cranial lateral line canals are retained and they contain a total of eight canal neuromasts. In addition, 128–155 superficial neuromasts are found in six head series (comprising 33 neuromast lines or rows). Superficial neuromasts are found in one body series (65–80 neuromasts arranged in three groups of vertical lines or “stitches”) and one caudal fin series (3 lines, each located between fin rays and comprised of many small neuromasts; total of 27–53 neuromasts) extending to the tip of the caudal fin. The general distribution of neuromasts is established early during the larval stage, and neuromast numbers increase within and among lines resulting in an increase in overall complexity of the system. On day-of-hatch, a total of 22 neuromasts are present. At ∼15 days post-hatch, all eight cranial canal neuromasts are present, and, in post-settlement juveniles (“settlers”), they are enclosed in canals and a total of ∼185 neuromasts are found on the head, trunk, and tail. All neuromasts are small (∼40 lm long) and diamond-shaped, but three subpopulations (canal neuromasts, canal neuromast homologs, superficial neuromasts) are defined based on their location and their arrangement within lines (“tip-to-tip” or “side-by-side”). The ontogeny of the lateral line system and distinctions among neuromast subpopulations help to reveal the structural and functional organization of the complex lateral line system in Elacatinus and will contribute to the interpretation of neuromast patterns in other gobiiforms. A comparison of superficial neuromast number in 12 species of Elacatinus and Tigrigobius (sister genera) revealed variation among species that live in different reef microhabitats, which suggests that adaptive evolution in the lateral line system is evident among closely related taxa.
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考虑功能和生态学的戈比(Elacatinus lori)复杂侧线系统的组织和个体发生
Gobies(Gobiedae科)有一个复杂的机械感觉侧线系统,其特征是侧线管减少,小的浅表神经瘤(在“感觉乳头”上)急剧增殖,这些神经瘤在头部、躯干和尾部排列成行。采用一套形态学方法描述了霓虹虾虎鱼Elacatinus lori的管神经和浅表神经移植的分布和形态,并首次描述了任何虾虎鱼的侧线系统的个体发育。仅保留了三个颅骨侧线管的一部分,它们总共包含八个管神经瘤。此外,在六个头部系列中发现了128-155个浅表神经移植(包括33个神经移植行或行)。浅表神经瘤分为一个身体系列(65-80个神经瘤排列成三组垂直线或“缝线”)和一个尾鳍系列(3条线,每条线位于鳍射线之间,由许多小神经瘤组成;共27-53个神经瘤),延伸至尾鳍尖端。神经细胞瘤的总体分布在幼虫期早期就已确定,神经细胞瘤在系内和系间的数量增加,导致系统的整体复杂性增加。孵化当天,共有22个神经瘤出现。孵化后~15天,所有8个脑管神经瘤都存在,在定居后的青少年(“定居者”)中,他们被封闭在脑管中,在头部、躯干和尾部共发现~185个神经瘤。所有的神经瘤都是小的(~40 lm长)和菱形的,但三个亚群(管神经瘤、管神经瘤同源物、浅表神经瘤)是根据它们的位置和排列(“尖端到尖端”或“并排”)来定义的。侧线系统的个体发育和神经母细胞亚群之间的区别有助于揭示Elacatinus复杂侧线系统的结构和功能组织,并将有助于解释其他形态的神经母细胞模式。对Elacatinus和Tigriobius(姐妹属)的12个物种的浅表神经母细胞数量进行比较,揭示了生活在不同珊瑚礁微生境中的物种之间的差异,这表明在亲缘关系密切的分类群中,侧线系统的适应性进化是明显的。
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来源期刊
Copeia
Copeia 生物-动物学
CiteScore
2.10
自引率
0.00%
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0
审稿时长
6-12 weeks
期刊介绍: Founded in 1913, Copeia is a highly respected international journal dedicated to the publication of high quality, original research papers on the behavior, conservation, ecology, genetics, morphology, evolution, physiology, systematics and taxonomy of extant and extinct fishes, amphibians, and reptiles. Copeia is published electronically and is available through BioOne. Articles are published online first, and print issues appear four times per year. In addition to research articles, Copeia publishes invited review papers, book reviews, and compiles virtual issues on topics of interest drawn from papers previously published in the journal.
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