Chitinozoan response to the ‘Kellwasser events’: population dynamics and morphological deformities across the Frasnian–Famennian mass extinction

IF 2.3 2区地球科学 Q1 PALEONTOLOGY

Papers in Palaeontology Pub Date : 2024-05-07 DOI:10.1002/spp2.1557

Tim De Backer, James (Jed) E. Day, Poul Emsbo, Patrick I. McLaughlin, Thijs R.A. Vandenbroucke

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引用次数: 0

Abstract

Fossil (zoo)plankton dynamics during Devonian ocean‐anoxic and extinction events can shed light on the palaeoceanographic and geochemical processes that shaped the middle Palaeozoic biosphere. However, datasets on (Upper) Devonian marine palynology, illustrating such dynamics, remain underexplored. The type section of the Sweetland Creek Shale in Iowa (USA) offers a detailed conodont zonation for the upper Frasnian and across the Frasnian–Famennian boundary, records the Upper and Lower Kellwasser events and has pristine preservation of organic material, making this an ideal section to study the effects of this catastrophic event on chitinozoan zooplankton populations. A total of 3998 specimens were recovered, imaged and classified into 12 distinct species, 10 of which were previously unknown. This study demonstrates the unrealized potential of chitinozoans as a regional biostratigraphic tool in the Upper Devonian. The Lower Kellwasser Event is characterized by a drop in chitinozoan abundance and the run up to the Upper Kellwasser Event marks a period of rapid species turnover rates. Interestingly, every assemblage in this interval is nearly monospecific. Patterns of changing spine morphologies in Fungochitina pilosa, Ramochitina sp. A and Saharochitina sp. A are herein explored as potential ecophenotypic expressions. We identify Angochitina monstrosa as a new disaster species. The discovery of two teratological chitinozoans specimens, in combination with the presence of the disaster species Angochitina monstrosa and deformation in contemporaneous conodonts, supports our previous discovery that marine teratology is a feature of many Palaeozoic extinction events, possibly triggered by the injection of hydrothermal brines into the ocean.

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甲壳动物对 "凯尔瓦瑟事件 "的反应：弗拉斯年-法门年大灭绝期间的种群动态和形态畸变

泥盆纪大洋缺氧和大灭绝事件期间（动物）浮游生物化石的动态变化可以揭示形成中古生代生物圈的古海洋学和地球化学过程。然而，说明这种动态变化的（上）泥盆纪海洋古生物学数据集仍未得到充分开发。美国爱荷华州 Sweetland Creek 页岩的类型剖面提供了上元古代和整个元古代-Famennian 边界的详细锥体动物分带，记录了上元古代和下元古代的 Kellwasser 事件，并保存了原始的有机物质，因此是研究这一灾难性事件对壳纲浮游动物种群影响的理想剖面。共采集了 3998 个标本，对其进行了成像，并将其分为 12 个不同的物种，其中 10 个物种以前是未知的。这项研究证明了壳质浮游动物作为上泥盆纪区域生物地层学工具的潜力。下凯尔瓦瑟事件的特点是壳质动物数量下降，而上凯尔瓦瑟事件之前则是一个物种快速更替的时期。有趣的是，在这一时期的每个集合体几乎都是单一物种。本文探讨了 Fungochitina pilosa、Ramochitina sp.我们发现 Angochitina monstrosa 是一个新的灾害物种。两个畸胎壳虫标本的发现，结合灾难物种 Angochitina monstrosa 的存在以及同时代锥齿动物的变形，支持了我们之前的发现，即海洋畸胎是许多古生代灭绝事件的一个特征，可能是由热液盐水注入海洋引发的。

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

Papers in Palaeontology PALEONTOLOGY-

CiteScore

4.50

自引率

4.30%

发文量

期刊介绍： Papers in Palaeontology is the successor to Special Papers in Palaeontology and a journal of the Palaeontological Association (www.palass.org). The journal is devoted to the publication of papers that document the diversity of past life and its distribution in time and space. Papers in Palaeontology is devoted to the publication of papers that document the diversity of past life and its distribution in time and space. As a sister publication to Palaeontology its focus is on descriptive research, including the descriptions of new taxa, systematic revisions of higher taxa, detailed biostratigraphical and biogeographical documentation, and descriptions of floras and faunas from specific localities or regions. Most contributions are expected to be less than 30 pp long but longer contributions will be considered if the material merits it, including single topic parts. The journal publishes a wide variety of papers on palaeontological topics covering: palaeozoology, palaeobotany, systematic studies, palaeoecology, micropalaeontology, palaeobiogeography, functional morphology, stratigraphy, taxonomy, taphonomy, palaeoenvironmental reconstruction, palaeoclimate analysis, biomineralization studies.