安大略南部中泥盆世Onondaga组珊瑚-红珊瑚-苔藓虫组合中多种形式的生物免疫

J. Thomka, Lilian K. Gunderson
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引用次数: 0

摘要

从安大略省最南端的科尔伯恩港收集的中泥盆世奥农达加组边缘崖成员的一个大型有利的表状珊瑚群,在这里被描述,因为珊瑚的过度生长保留了几个值得注意的古生物特征。最初的基质是一种巨大的孤独的褶皱珊瑚,后来被偏爱的珊瑚覆盖;向外生长导致了多个大型化石的过度生长,包括大直径(可能是照相机)海百合柱的相对较长的部分。海百合柱可能代表了部分坚固的、平卧的双柱状附着结构,除此之外,几乎完全是从收集地点的孤立柱状和其他地方的Edgecliff成员的类似高能生物基质岩相中得知的。其中一根似海百合的柱体被一种狭窄的苔藓虫包裹着,其中包含几个类似于Catellocaula的寄生生物闭锁结构的例子。因此,珊瑚-海百合-苔藓虫的复合组合包含两种形式的生物免疫:通过过度生长保存相对完整的海百合柱,并最终合并到表状珊瑚的基部;通过嵌入苔藓虫保存生物螯合生物(可能是海鞘)的轮廓。该标本证明了古生代碳酸盐堆积中生物相互作用和保存机制的多样性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
MULTIPLE FORMS OF BIOIMMURATION IN A CORAL-CRINOID-BRYOZOAN ASSOCIATION FROM THE MIDDLE DEVONIAN ONONDAGA FORMATION OF SOUTHERN ONTARIO
A large favositid tabulate coral colony from the Middle Devonian Edgecliff Member of the Onondaga Formation, collected from Port Colborne, southernmost Ontario, is described herein because of several noteworthy paleontological features preserved via overgrowth by the coral. The initial substratum colonized and subsequently overgrown by the favositid was a large solitary rugose coral; and outward growth resulted in overgrowth of multiple macrofossils, including relatively long portions of large-diameter (probably camerate) crinoid columns. The crinoid columns, which likely represent portions of robust, recumbent dististelar attachment structures, are otherwise known almost entirely from isolated columnals at the collection locality and similar high-energy biostromal lithofacies in the Edgecliff Member elsewhere. One of the crinoid columns is encrusted by a stenolaemate bryozoan containing several examples of a parasitic bioclaustration structure similar to Catellocaula. Hence, the composite coral-crinoid-bryozoan association contains two forms of bioimmuration: preservation of the relatively intact crinoid columns via overgrowth and eventual incorporation into the base of the tabulate coral and preservation of the outline of the bioclaustrated organism (potentially an ascidian tunicate) via embedment in the bryozoan. This specimen serves as a testament to the diversity of biotic interactions and preservational mechanisms that occurred in Paleozoic carbonate buildups.
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