Ontogeny of the elemental composition and the biomechanics of radular teeth in the chiton Lepidochitona cinerea

IF 2.6 2区 生物学 Q1 ZOOLOGY Frontiers in Zoology Pub Date : 2022-06-11 DOI:10.1186/s12983-022-00465-w
Krings, Wencke, Brütt, Jan-Ole, Gorb, Stanislav N.
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引用次数: 16

Abstract

The radula, a chitinous membrane with embedded teeth, is one important molluscan autapomorphy. In some taxa (Polyplacophora and Patellogastropoda) one tooth type (the dominant lateral tooth) was studied intensively in the last decades with regard to its mechanical properties, chemical and structural composition, and the relationship between these parameters. As the dominant lateral tooth is probably one of the best studied biological materials, it is surprising, that data on elements and mechanical properties of the other tooth types, present on a chiton radula, is lacking. We provide data on the elemental distribution and mechanical properties (hardness and elasticity, i.e. Young’s modulus) of all teeth from the Polyplacophora Lepidochitona cinerea (Linnaeus, 1767) [Chitonidae: Ischnochitonidae]. The ontogeny of elements, studied by energy-dispersive X-ray spectroscopy, and of the mechanical properties, determined by nanoindentation, was analysed in every individual tooth type. Additionally, we performed breaking stress experiments with teeth under dry and wet condition, highlighting the high influence of the water content on the mechanical behaviour of the radula. We thereby could determine the forces and stresses, teeth can resist, which were previously not studied in representatives of Polyplacophora. Overall, we were able to relate the mineral (iron, calcium) content with the mechanical parameters (hardness and Young’s modulus) and the breaking force and stress in every tooth type. This led to a better understanding of the relationship between structure, material, and function in radular teeth. Further, we aimed at determining the role of calcium for the mechanical behaviour of the teeth: we decalcified radulae by ethylene diamine tetra acetic acid and performed afterwards elemental analyses, breaking stress experiments, and nanoindentation. Among other things, we detected that wet and decalcified radular teeth could resist highest forces, since teeth have a higher range of bending motion leading to a higher capability of teeth to gain mechanical support from the adjacent tooth row. This indicates, that the tooth material is the result of a compromise between failure reduction and the ability to transfer forces onto the ingesta. We present novel data on the elemental composition, mechanical properties, and the mechanical behaviour of chiton teeth, which allows conclusions about tooth function. We could also relate the parameters mentioned, which contributes to our understanding on the origins of mechanical property gradients and the processes reducing structural failure in radular teeth. Additionally, we add more evidence, that the elemental composition of radular is probably species-specific and could be used as taxonomic character.
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石鳖根状齿元素组成的个体发育及生物力学研究
radula是一种具有嵌齿的几丁质膜,是软体动物的一种重要的自异形。在一些分类群(Polyplacophora和Patellogastropoda)中,一种牙齿类型(占优势的侧齿)的力学性能、化学和结构组成以及这些参数之间的关系在过去的几十年中得到了深入的研究。由于主要的侧牙可能是研究得最好的生物材料之一,令人惊讶的是,关于石鳖牙髓上存在的其他类型牙齿的元素和力学特性的数据却缺乏。我们提供了来自Polyplacophora Lepidochitona cinerea (Linnaeus, 1767)的所有牙齿的元素分布和力学性能(硬度和弹性,即杨氏模量)的数据[壳类科:Ischnochitonidae]。通过能量色散x射线光谱学研究了元素的个体发生,并通过纳米压痕测定了机械性能,分析了每一种牙齿类型。此外,我们进行了牙齿在干燥和潮湿条件下的断裂应力实验,突出了含水量对牙髓力学行为的高度影响。因此,我们可以确定力和应力,牙齿可以抵抗,这是以前没有研究的代表多placophora。总的来说,我们能够将矿物(铁,钙)含量与每种牙齿类型的机械参数(硬度和杨氏模量)以及断裂力和应力联系起来。这有助于更好地理解根状牙的结构、材料和功能之间的关系。此外,我们旨在确定钙在牙齿力学行为中的作用:我们用乙二胺四乙酸脱钙,然后进行元素分析、断裂应力实验和纳米压痕。除此之外,我们发现湿的和脱钙的根状牙齿可以抵抗最高的力,因为牙齿有更高的弯曲运动范围,从而使牙齿更有能力从相邻的牙齿排获得机械支持。这表明,牙齿材料是在减少失效和将力传递到摄取物的能力之间折衷的结果。我们提出的元素组成,机械性能和石鳖牙齿的力学行为的新数据,这使得结论关于牙齿的功能。我们还可以将上述参数联系起来,这有助于我们理解力学性能梯度的起源和减少根状齿结构破坏的过程。此外,我们还补充了更多的证据,表明radular的元素组成可能是种特异性的,可以作为分类特征。
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来源期刊
CiteScore
4.90
自引率
0.00%
发文量
29
审稿时长
>12 weeks
期刊介绍: Frontiers in Zoology is an open access, peer-reviewed online journal publishing high quality research articles and reviews on all aspects of animal life. As a biological discipline, zoology has one of the longest histories. Today it occasionally appears as though, due to the rapid expansion of life sciences, zoology has been replaced by more or less independent sub-disciplines amongst which exchange is often sparse. However, the recent advance of molecular methodology into "classical" fields of biology, and the development of theories that can explain phenomena on different levels of organisation, has led to a re-integration of zoological disciplines promoting a broader than usual approach to zoological questions. Zoology has re-emerged as an integrative discipline encompassing the most diverse aspects of animal life, from the level of the gene to the level of the ecosystem. Frontiers in Zoology is the first open access journal focusing on zoology as a whole. It aims to represent and re-unite the various disciplines that look at animal life from different perspectives and at providing the basis for a comprehensive understanding of zoological phenomena on all levels of analysis. Frontiers in Zoology provides a unique opportunity to publish high quality research and reviews on zoological issues that will be internationally accessible to any reader at no cost. The journal was initiated and is supported by the Deutsche Zoologische Gesellschaft, one of the largest national zoological societies with more than a century-long tradition in promoting high-level zoological research.
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