Comparative Morphology of Plethodontid Olfactory and Vomeronasal Organs: How Snouts Are Packed

IF 1.1 2区 生物学 Q3 ZOOLOGY Herpetological Monographs Pub Date : 2017-10-12 DOI:10.1655/HERPMONOGRAPHS-D-15-00008.1
E. Dawley
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引用次数: 10

Abstract

Abstract:  Size and shape of sensory organs are features, among others, that can affect sensory functioning. Natural selection can act on such features to optimize performance in particular environments and for particular life histories and behavioral repertoires, although selection is not the only force influencing a particular structure. I examined olfactory and vomeronasal organ morphology in several species of salamanders in the Family Plethodontidae ranging from completely aquatic, semiaquatic, terrestrial, to arboreal. The Plethodontidae is the most speciose and diverse urodele group, making it a particularly interesting subject of evolutionary study. I examined microanatomy with the use of serial sections of complete snouts of species from the Appalachians and Neotropics, the two centers of plethodontid diversity. All species, except the aquatic Desmognathus marmoratus, had thick olfactory epithelia very anteriorly in the snout, especially mid-point in the main olfactory chamber, which may optimize odorant delivery along the path of airflow in through the external nares and out through the internal nares. Desmognathus marmoratus had greatly reduced olfactory epithelia. All species had well developed vomeronasal organs, particularly Desmognathus species, indicating the importance of this system for plethodontids. Small species had nasal chambers organized to optimize space for both olfactory and vomeronasal epithelia, and all Neotropical species had particularly thick sensory epithelia; these may be compensatory mechanisms to ensure adequate sensory receptor cell numbers in small snouts and/or with large cell sizes. A number of different gland types, including nasal, intermaxillary, nasochoanal, nasolabial, vomeronasal, and orbital, occupy a large and variable space within rostra, and their functions warrant further investigation. Chemoreception and vision are the two most important sensory modalities for plethodontids, and the simpler organization of chemosensory systems compared to vision, and compared to chemoreception in other vertebrates, make plethodontids attractive subjects in the study of the evolution of chemosensory systems.
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鼻梁和犁鼻器官的比较形态学:鼻涕是如何填充的
摘要:  感觉器官的大小和形状是影响感觉功能的特征之一。自然选择可以作用于这些特征,以优化在特定环境中、特定生活史和行为曲目中的表现,尽管选择并不是影响特定结构的唯一力量。我检查了蝾螈科几种蝾螈的嗅觉和犁鼻器官形态,从完全水生、半水生、陆生到树栖。Plethodontidae是最具物种性和多样性的urodele类群,这使其成为进化研究中一个特别有趣的主题。我使用阿巴拉契亚山脉和新热带地区这两个完整牙齿多样性中心的物种的完整鼻部的序列切片进行了显微解剖。所有物种,除了水生的土拨鼠Desmognathus marmoratus,在鼻子的前部,特别是主嗅室的中点都有厚厚的嗅觉上皮,这可能会优化气味物质沿着气流通过外部鼻孔进入和通过内部鼻孔排出的路径的输送。土颌Desmognathus marmoratus的嗅觉上皮细胞明显减少。所有物种都有发育良好的犁鼻器官,尤其是Desmognathus物种,这表明了该系统对全齿牙的重要性。小物种的鼻腔组织可以优化嗅觉和犁鼻上皮的空间,所有新热带物种的感觉上皮都特别厚;这些可能是确保小鼻涕和/或大细胞大小的感觉受体细胞数量充足的补偿机制。许多不同的腺体类型,包括鼻腺、颌间腺、鼻后鼻孔腺、鼻唇腺、犁鼻腺和眼眶腺,在喙部占据着巨大而可变的空间,它们的功能值得进一步研究。化学接收和视觉是全齿体最重要的两种感觉模式,与视觉相比,以及与其他脊椎动物的化学接收相比,化学感觉系统的组织更简单,这使得全齿体在化学感觉系统进化研究中具有吸引力。
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来源期刊
Herpetological Monographs
Herpetological Monographs 生物-动物学
CiteScore
5.40
自引率
0.00%
发文量
2
审稿时长
>12 weeks
期刊介绍: Since 1982, Herpetological Monographs has been dedicated to original research about the biology, diversity, systematics and evolution of amphibians and reptiles. Herpetological Monographs is published annually as a supplement to Herpetologica and contains long research papers, manuscripts and special symposia that synthesize the latest scientific discoveries.
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