Late Cambrian Pywackia is a cnidarian, not a bryozoan: Insights from skeletal microstructure

IF 1.3 4区地球科学 Q3 PALEONTOLOGY

Journal of Paleontology Pub Date : 2023-06-22 DOI:10.1017/jpa.2023.35

S. Hageman, O. Vinn

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引用次数: 1

Abstract

The phylum Bryozoa had long been the only major phylum unknown from the Cambrian and by inference the Cambrian Explosion of biodiversity. When described in 2010 as a late Cambrian cryptostome bryozoan, Pywackia baileyi Landing in Landing et al., 2010 became the oldest known bryozoan (early Cambrian bryozoans have since been described). Controversy remains about the phylum-level identification of Pywackia Landing in Landing et al., 2010—one study proposed an interpretation of Pywackia as an octocoral. No previous studies of the skeletal microstructure of Pywackia have employed the analysis of petrographic thin sections and high-magnification scanning electron microscopy. These two methods, with the addition of data from previous studies, are employed in this analysis of skeletal microstructure, a feature often important for higher-level taxonomic identification. Although many candidate groups were considered, Pywackia's distinctive pillar and laminae, porous skeleton like many Cnidaria, topology of the body walls, and growth of modules are consistent with a cnidarian affinity. Pywackia skeletons with primary microstructure were 100% phosphate mineral and were collected from a setting of pervasive phosphatic replacement, which leaves uncertainty as to the original skeletal composition. Pywackia is not assigned here to a cnidarian class and likely represents an early, rare, short-lived cnidarian evolutionary group.

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寒武纪晚期Pywackia是一种刺胞动物，而不是苔藓虫:来自骨骼微观结构的见解

苔藓虫门长期以来一直是寒武纪和寒武纪生物多样性大爆发时期唯一未知的主要门。当2010年被描述为寒武纪晚期隐石苔藓虫时，Pywackia baileyi Landing在Landing et al.， 2010年成为已知最古老的苔藓虫(早寒武纪苔藓虫后来被描述)。关于Pywackia Landing (Landing et al.， 2010)的门级鉴定仍有争议，其中一项研究将Pywackia解释为一种八珊瑚。在以往的研究中，还没有采用岩相薄片分析和高倍扫描电镜对棘球蚴的骨骼微观结构进行研究。这两种方法，加上先前研究的数据，被用于骨骼微观结构的分析，这一特征对于更高层次的分类鉴定通常很重要。尽管考虑了许多候选类群，但Pywackia独特的柱和板、多孔骨架(如许多刺胞动物)、体壁的拓扑结构和模块的生长都与刺胞动物的亲和性一致。Pywackia骨架的初级微观结构是100%的磷矿物，并且是从普遍存在的磷酸盐替代环境中收集的，这使得原始骨骼组成不确定。Pywackia在这里没有被归入刺胞动物的纲，它很可能代表了一个早期的、罕见的、短命的刺胞动物进化群。

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

Journal of Paleontology 地学-古生物学

CiteScore

2.80

自引率

7.10%

发文量

审稿时长

6-12 weeks

期刊介绍： The Journal of Paleontology publishes original articles and notes on the systematics, phylogeny, paleoecology, paleogeography, and evolution of fossil organisms. It emphasizes specimen-based research and features high quality illustrations. All taxonomic groups are treated, including invertebrates, microfossils, plants, vertebrates, and ichnofossils.