センザンコウの鼻の「迷宮」構造を解読～胎子標本から成体までの連続観察で、鼻甲介の相同を再定義し、進化シナリオを提示～

2025-12-16 東京大学

研究成果の概要(©東京大学・伊藤海・岩切美朋)

<関連情報>

• https://www.k.u-tokyo.ac.jp/information/category/press/0028773.html
• https://www.k.u-tokyo.ac.jp/assets/files/センザンコウの鼻の「迷宮」構造を解読_WEB%20%281%29.pdf
• https://academic.oup.com/zoolinnean/article-abstract/205/4/zlaf150/8378416?redirectedFrom=fulltext&login=false

センザンコウの鼻甲介と鼻板の相同性:発達からの洞察 Nasal turbinals and laminae homologies in pangolins: insights from developments

Kai Ito ,Ryo Kodera ,Mugino O Kubo ,Noriyuki Kuroda ,Quentin Martinez
Zoological Journal of the Linnean Society  Published:12 December 2025
DOI:https://doi.org/10.1093/zoolinnean/zlaf150

Abstract

The mammalian nasal cavity houses complex turbinals and laminae that conserve heat and moisture and mediate olfaction. Despite renewed interest driven by CT technology, some mammals remain scarcely studied, especially from developmental perspectives. This is true for pangolins, hypothesized to possess unique turbinals due to their elongated rostrum and possible olfactory adaptations for a specialized diet. Their turbinal complexity makes it difficult to establish hypotheses of homology with other mammals. Foetal anatomy and ontogenetic changes in the nasal capsule, therefore, provide key insights for assessing turbinal homology. Using diceCT, we reconstructed the foetal nasal capsules of Manis pentadactyla and M. javanica, and examined adults representing seven pangolin species, to clarify homology. By mapping turbinal and lamina traits on to a molecular phylogeny, we propose an evolutionary scenario for the morphology. Maxilloturbinals differ between Asian pangolins (double-scrolled folds) and African pangolins (a double scroll with a small caudal branch). Ethmoturbinal complexity also varies: in all pangolins, ethmoturbinal I comprises rostral (pars anterior) and caudal (pars posterior) portions, with lineage-specific degrees of subsequent fusion. These observations support two possible evolutionary pathways for the ethmoturbinal I: (i) complete separation into distinct pars; (ii) initial separation followed by secondary fusion in some lineages.