克莱德
系统发育树
现存分类群
生物
进化生物学
骨内植入物
四足动物(结构)
系统发育学
形态学(生物学)
形态计量学
异速滴定
动物
古生物学
医学
生物化学
基因
外科
骨整合
植入
作者
Yohan Pochat‐Cottilloux,Gwendal Perrichon,Lionel Hautier,Nicolas Rinder,Romain Amiot,Irena Raselli,Jérôme Adrien,Joël Lachambre,Vincent Fernández,Jeremy E. Martin
摘要
Abstract The endosseous labyrinths are associated with several functions, including hearing and spatial orientation. Throughout their evolutionary history, crocodylomorphs have thrived in diverse environments, and the morphology of their endosseous labyrinths has been suggested as a proxy for inferring their lifestyle. However, the relationships between the shape of their endosseous labyrinths and ontogenetic and phylogenetic factors are difficult to interpret and have rarely been investigated in depth previously, particularly in terms of dataset size. Here, we present the most complete dataset to date on the endosseous labyrinths of extant crocodylians, including 111 specimens covering 22 species of different ontogenetic status (from hatchlings to adults). Using 3D geometric morphometrics, we show that allometry constitutes a major contributor of the shape variation of the crocodylian endosseous labyrinths and that the development of this structure is likely linked to the braincase conformation, in all extant genera. We also find a moderate phylogenetic signal, but only without considering the size effect, so it could not be translated into relevant discrete morphological characters. Based on these results, we discuss several remaining problems that prevent the inclusion of fossil forms with highly divergent lifestyles to study how ecological differences shaped the endosseous labyrinths of crocodylomorphs.
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