First Virtual Reconstruction of a Mosasaurid Brain Endocast: Description and Comparison of the Endocast of Tethysaurus nopcsai with Those of Extant Squamates

Diversity Pub Date : 2024-09-05 DOI:10.3390/d16090548
Rémi Allemand, Michael J. Polcyn, Alexandra Houssaye, Peggy Vincent, Camilo López-Aguirre, Nathalie Bardet
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Abstract

Paleoneurological studies of mosasaurids are few and limited to old partial reconstructions made from latex casts on Platecarpus and Clidastes. Here, the brain endocasts of three specimens of the early mosasaurid Tethysaurus nopcsai from the Turonian of Morocco are reconstructed for the first time by using micro-computed tomography. Comparisons between Tethysaurus and the later Platecarpus and Clidastes show that distinct endocranial organizations have occurred within the clade through time, including differences in the flexure of the endocast and the size of the parietal eye. The physiological consequences of such variability remain unclear and further investigations are required to better interpret these variations. In addition, the endocast of Tethysaurus was compared to those of extant anguimorphs, iguanians, and snakes, using landmark-based geometric morphometrics. The results revealed that Tethysaurus exhibits a unique combination of endocranial features compared to extant toxicoferans. Contrary to previous statements, we find no strong resemblance in endocast morphology between Tethysaurus and varanids. Rather, the endocast of Tethysaurus shows some morphological similarities with each of the clades of anguimorphs, iguanians, and snakes. In this context, while a notable phylogenetic signal is observed in the variability of squamate endocasts, it is premature to establish any phylogenetic affinities between mosasaurids and extant squamates based solely on endocast morphologies.
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首次虚拟重建沧龙类脑内铸模:描述并比较鲎龙与现存有鳞类的脑内铸模
关于沧龙类的古神经学研究很少,而且仅限于根据板龙和蛤龙的乳胶铸模进行的古老的部分重建。本文首次使用微型计算机断层扫描技术重建了摩洛哥图伦纪早期沧龙类 Tethysaurus nopcsai 三个标本的脑内铸模。Tethysaurus与后来的Platecarpus和Clidastes之间的比较表明,随着时间的推移,该支系内部出现了不同的内颅骨组织,包括内颅骨弯曲和顶眼大小的差异。这种变异的生理后果尚不清楚,需要进一步研究才能更好地解释这些变异。此外,研究人员还利用基于地标的几何形态计量学方法,将趾龙的内躯体与现生鬣蜥类、鬣蜥类和蛇类的内躯体进行了比较。结果显示,与现存的毒蜥类相比,趾龙表现出独特的颅内特征组合。与之前的说法相反,我们发现趾龙与变种蛇的内颅骨形态并不十分相似。相反,Tethysaurus 的内颅骨与鬣蜥科、鬣狗科和蛇科在形态上有一些相似之处。在这种情况下,虽然从有鳞类动物内蜕的变异中可以观察到明显的系统发育信号,但仅凭内蜕形态来确定沧龙类与现生有鳞类动物之间的系统发育亲缘关系还为时尚早。
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