Cambrian edrioasteroid reveals new mechanism for secondary reduction of the skeleton in echinoderms
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Issue date
09/03/2022Submitted date
2021-12-17Subject Terms
Cambrianechinoderms
skeleton
evolution
development
Metadata
Show full item recordAbstract
Echinoderms are characterized by a distinctive high-magnesium calcite endoskeleton as adults, but elements of this have been drastically reduced in some groups. Herein, we describe a new pentaradial echinoderm, Yorkicystis haefneri n. gen. n. sp., which provides, to our knowledge, the oldest evidence of secondary non-mineralization of the echinoderm skeleton. This material was collected from the Cambrian Kinzers Formation in York (Pennsylvania, USA) and is dated as ca 510 Ma. Detailed morphological observations demonstrate that the ambulacra (i.e. axial region) are composed of flooring and cover plates, but the rest of the body (i.e. extraxial region) is preserved as a dark film and lacks any evidence of skeletal plating. Moreover, X-ray fluorescence analysis reveals that the axial region is elevated in iron. Based on our morphological and chemical data and on taphonomic comparisons with other fossils from the Kinzers Formation, we infer that the axial region was originally calcified, while the extraxial region was non-mineralized. Phylogenetic analyses recover Yorkicystis as an edrioasteroid, indicating that this partial absence of skeleton resulted from a secondary reduction. We hypothesize that skeletal reduction resulted from lack of expression of the skeletogenic gene regulatory network in the extraxial body wall during development. Secondary reduction of the skeleton in Yorkicystis might have allowed for greater flexibility of the body wall.Citation
Zamora Samuel, Rahman Imran A., Sumrall Colin D., Gibson Adam P. and Thompson Jeffrey R. 2022Cambrian edrioasteroid reveals new mechanism for secondary reduction of the skeleton in echinodermsProc. R. Soc. B.2892021273320212733 http://doi.org/10.1098/rspb.2021.2733Publisher
The Royal SocietyType
Journal ArticleItem Description
Copyright © 2021, The Authors. This document is the author’s final accepted version of the journal article. You are advised to consult the published version if you wish to cite from it.NHM Repository
ISSN
0962-8452EISSN
1471-2954ae974a485f413a2113503eed53cd6c53
10.1098/rspb.2021.2733
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