The Application of Dental Complexity Metrics on Extant Saurians

IF 1.3 3区 生物学 Q2 ZOOLOGY
K. Melstrom, Zackery P. Wistort
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引用次数: 5

Abstract

Abstract: Quantifying morphology has become increasingly popular with the advent of widely available high-powered computing. Orientation patch count rotated (OPCR) is an important measurement of dental surface complexity and has been shown to relate to diet, with carnivores possessing simple teeth and herbivores exhibiting complex dentitions. This method, however, has primarily been applied to mammals with comparatively little research focusing on dentigerous reptiles. Three methods are currently used to measure dental complexity (Surfer Manipulator, molaR, and MorphoTester), and the comparability of these methods remains untested in saurian datasets. Here, we test for differences among the three dental complexity methods using a dataset comprising lepidosaur and crocodylian teeth. Additionally, we seek to test the hypothesis that phenotypic dental complexity is related to dietary ecology using the molaR and MorphoTester OPCR methods. We find that Surfer Manipulator and 3D-OPCR methods (molaR and MorphoTester) generate different complexities, with molaR and MorphoTester consistently producing higher complexity values. The relationship between diet and dental complexity was recovered using molaR and MorphoTester, with carnivores possessing simple teeth and herbivores exhibiting significantly more-complex teeth, but this trend was not as distinct as when using Surfer Manipulator. Dental complexities were highly dependent on model preparation, in particular the triangle count of each 3D model, with surfaces that possess a greater number of faces exhibiting higher complexities. We present a series of recommendations that will help guide future studies of nonmammalian dentitions. Ultimately, 3D-OPCR methods are a fruitful area of research and represent a relatively untapped avenue of quantitative herpetology.
牙齿复杂性度量在现存蜥蜴上的应用
摘要:随着广泛可用的高性能计算的出现,量化形态学变得越来越流行。旋转方向贴片计数(OPCR)是牙齿表面复杂性的一个重要测量指标,已被证明与饮食有关,食肉动物拥有简单的牙齿,草食动物表现出复杂的齿列。然而,这种方法主要应用于哺乳动物,对有齿爬行动物的研究相对较少。目前有三种方法用于测量牙齿复杂性(Surfer Manipulator、molaR和MorphoTester),这些方法的可比性尚未在蜥脚类数据集中进行测试。在这里,我们使用包括鳞翅龙和鳄鱼牙齿的数据集来测试三种牙齿复杂性方法之间的差异。此外,我们试图使用molaR和MorphoTester OPCR方法来检验表型牙齿复杂性与饮食生态学相关的假设。我们发现Surfer Manipulator和3D-OPCR方法(molaR和MorphoTester)产生不同的复杂性,molaR与MorphoTester始终产生更高的复杂性值。使用molaR和MorphoTester恢复了饮食和牙齿复杂性之间的关系,食肉动物拥有简单的牙齿,草食动物表现出明显更复杂的牙齿,但这一趋势不像使用冲浪操纵器时那样明显。牙齿的复杂性在很大程度上取决于模型的准备,特别是每个3D模型的三角形数量,具有更多面的表面表现出更高的复杂性。我们提出了一系列建议,这些建议将有助于指导未来对非哺乳动物齿列的研究。最终,3D-OPCR方法是一个富有成果的研究领域,代表了一种相对未开发的定量疱疹学途径。
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
Herpetologica
Herpetologica 生物-动物学
CiteScore
4.60
自引率
0.00%
发文量
27
审稿时长
>12 weeks
期刊介绍: Established in 1936, Herpetologica is a quarterly peer-reviewed journal serving herpetologists, biologists, ecologists, conservationists, researchers and the scientific community. The journal contains original research papers and essays about the biology of reptiles and amphibians, and covers many relevant topics including: behavior, conservation, ecology, genetics, morphology, physiology and taxonomy.
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