The other biodiversity record: Innovations in animal-substrate interactions through geologic time

Q1 Earth and Planetary Sciences

GSA Today Pub Date : 2018-09-25 DOI:10.1130/GSATG371A.1

L. Buatois, M. Mángano

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引用次数: 34

Abstract

Tracking biodiversity changes based on body fossils through geologic time became one of the main objectives of paleontology in the 1980s. Trace fossils represent an alternative record to evaluate secular changes in diversity. A quantitative ichnologic analysis, based on a comprehensive and global data set, has been undertaken in order to evaluate temporal trends in diversity of bioturbation and bioerosion structures. The results of this study indicate that the three main marine evolutionary radiations (Cambrian Explosion, Great Ordovician Biodiversification Event, and Mesozoic Marine Revolution) detected in the body-fossil record are also expressed in the trace-fossil record. Analysis of ichnodiversity trajectories in marine environments supports Sepkoski’s logistic model, which was originally based on analysis of marine body fossils. The tracefossil record of continental environments suggests variable rates of increases in ichnodiversity, with major radiations in the Ludlow–Early Devonian, Cisuralian, Early Jurassic, Late Cretaceous, and Eocene, and slower increases or plateaus in between these periods. Our study indicates that ichnologic information represents an independent line of evidence that yields valuable insights to evaluate paleobiologic megatrends.

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另一项生物多样性记录：地质时期动物与基质相互作用的创新

在20世纪80年代，基于身体化石追踪地质时期的生物多样性变化成为古生物学的主要目标之一。痕迹化石代表了评估多样性长期变化的另一种记录。为了评估生物扰动和生物侵蚀结构多样性的时间趋势，已经根据全面的全球数据集进行了定量考古分析。研究结果表明，在体化石记录中检测到的三种主要海洋进化辐射（寒武纪大爆发、大奥陶纪生物多样化事件和中生代海洋革命）也在痕迹化石记录中得到了表达。海洋环境中ichnodiversity轨迹的分析支持Sepkoski的逻辑模型，该模型最初基于对海洋生物化石的分析。大陆环境的痕迹化石记录表明，遗迹多样性的增加速度各不相同，主要辐射发生在勒德洛-早泥盆纪、西乌拉尔期、早侏罗纪、晚白垩世和始新世，在这两个时期之间增加或稳定的速度较慢。我们的研究表明，遗迹信息代表了一条独立的证据线，为评估古生物大趋势提供了有价值的见解。

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

GSA Today Earth and Planetary Sciences-Geology

CiteScore

4.90

自引率

0.00%

发文量