Electron backscatter diffraction (EBSD) study of elongatoolithid eggs from China with microstructural and parataxonomic implications

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Xufeng Zhu, Qiang Wang, Xiaolin Wang
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Abstract

Electron backscatter diffraction (EBSD) has been widely used in recent studies of eggshells for its convenience in collecting in situ crystallographic information. China has a wide variety of dinosaur eggshells, although nearly none have been studied with this technique. Elongatoolithid eggs include many oogenera, although the microstructural differences of some were not highly appreciated, leading to several parataxonomic problems. In this paper, we surveyed seven elongatoolithid oogenera in China using EBSD in order to acquire more information about their microstructural variation. It is shown in this paper that in some elongatoolithid eggshells, scaly calcite grains that form the squamatic ultrastructure are not the only form of calcite in the continuous layer. Large columnar grains separated by high-angled grain boundaries and slender subgrains separated by radially arranged low-angled grain boundaries could exist in certain areas of the eggshells such as Macroolithus and Macroelongatoolithus. This paper discusses the criteria for identifying squamatic ultrastructure and proposes type I (rich in rugged high-angled grain boundaries) and type II (rich in both rugged high- and low-angled grain boundaries) squamatic ultrastructures. A pathological layer is found in Undulatoolithus pengi. An external zone is identified in the eggshell of Heishanoolithus changii, which does not support its position within the oofamily Elongatoolithidae. We argue that Paraelongatoolithus no longer belongs to Elongatoolithidae based on a combination of reticulated ornamentation, columnar continuous layer, and acicular mammillae. The high structural variation in elongatoolithid eggshells also implies that it may be inappropriate to relate all previous elongatoolithid eggshells to oviraptorosaurs and assume they are non-monophyletic.
中国长尾蜥卵的电子反向散射衍射(EBSD)研究及其微观结构和副分类学意义
电子反向散射衍射(EBSD)因其便于收集原位晶体学信息而被广泛应用于近年来的蛋壳研究中。中国的恐龙蛋壳种类繁多,但几乎没有一种蛋壳曾用此技术进行过研究。长尾龙类的蛋包括许多属种,但其中一些属种的微观结构差异并未得到高度重视,从而导致了一些副分类学问题。本文利用 EBSD 技术调查了中国的 7 个长尾蜥属种,以获得更多有关其微观结构变异的信息。结果表明,在一些长尾蜥卵壳中,形成鳞片状超微结构的鳞片状方解石颗粒并不是连续层中方解石的唯一形式。在蛋壳的某些区域,如巨石蛋壳(Macroolithus)和巨长石蛋壳(Macroelongatoolithus),可能存在被高角度晶界分隔的大柱状晶粒和被径向排列的低角度晶界分隔的细长亚晶粒。本文讨论了鳞片超微结构的鉴定标准,并提出了鳞片超微结构类型 I(富含凹凸不平的高角度晶界)和类型 II(同时富含凹凸不平的高角度和低角度晶界)。在 Undulatoolithus pengi 中发现了病理层。在 Heishanoolithus changii 的蛋壳中发现了一个外部区域,这并不支持将其归入 Elongatoolithidae 卵石科。我们认为,Paraelongatoolithus不再属于Elongatoolithidae,其依据是网状装饰、柱状连续层和针状乳突的组合。长舌龙类蛋壳结构的高度变异也意味着,将以前所有的长舌龙类蛋壳与卵龙类联系起来并假定它们是非单系的可能是不恰当的。
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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