意大利白云岩长兴期Bellerophon组双壳类:下三叠世灭绝后底栖生物群落的祖先

IF 2.3 2区地球科学 Q1 PALEONTOLOGY

Papers in Palaeontology Pub Date : 2023-03-01 DOI:10.1002/spp2.1486

H. Prinoth, R. Posenato

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引用次数: 0

摘要

长兴期Bellerophon组(白云岩)的多种浅海化石组合记录了二叠纪末大灭绝之前的晚古生代海洋生物。对白云石西部地区的双壳类动物进行分类，共鉴定出26种，包括1新科(Ladinomyidae)、3新属(Ladinomya、Lovaralucina、Gardenapecten)和10新种:Acharax frenademezi、Bakevellia (Bakevellia) preromangica、Edmondia hautmanni、Etheripecten stuflesseri、Ladinomya fosteri、Lovaralucina covidi、paleolima badiotica、Promytilus merlai、Tambanella?石竹和水仙。三种不同地层分布的Eumorphotis的出现，使我们提出了一个上二叠统的“下Eumorphotis带”，分为E. praecurrens, E. striatocostata和E. lorigae亚带，与现有的下三叠统Eumorphotis带(此处更名为“上Eumorphotis带”)不同。古生态分析根据丰富度、优势度和生态生活方式划分出6个生物相和4个生态相。双壳类生活在受高温、高盐度、浅水深、低氧和高陆源输入影响的泻湖至近岸环境中。上Bellerophon Fm的特点是日益完全的海洋条件，尽管eurytopic分类群仍然表明胁迫条件。通过比较上二叠统Bellerophon组和下三叠统Werfen组的双壳类丰富度来估计属级灭绝率。与其他同时期双壳类动物相比，近一半(47%)的Bellerophon Fm属的消失率非常低。灭绝前双壳类动物群以胁迫适应类群(Unionites、Eumorphotis、Bakevellia、Towapteria)为主，它们能够在极端环境条件下茁壮成长，在二叠纪末大灭绝中幸存下来，并成为全球下三叠世底栖生物群落的主要组成部分。

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Bivalves from the Changhsingian (upper Permian) Bellerophon Formation of the Dolomites (Italy): ancestors of Lower Triassic post‐extinction benthic communities

Diverse shallow marine fossil assemblages from the Changhsingian Bellerophon Formation (Dolomites) record late Palaeozoic marine life immediately before the end‐Permian mass extinction. We classified c. 6500 bivalves from western Dolomites localities, identifying 26 species including one new family (Ladinomyidae), three new genera (Ladinomya, Lovaralucina, Gardenapecten) and 10 new species: Acharax frenademezi, Bakevellia (Bakevellia) preromangica, Edmondia hautmanni, Etheripecten stuflesseri, Ladinomya fosteri, Lovaralucina covidi, Palaeolima badiotica, Promytilus merlai, Tambanella? stetteneckensis and Volsellina carinata. The occurrence of three Eumorphotis species with different stratigraphic distributions, leads us to propose an upper Permian ‘Lower Eumorphotis Zone’, divided into E. praecurrens, E. striatocostata and E. lorigae subzones, and distinct from the existing Lower Triassic Eumorphotis Zone (here renamed ‘Upper Eumorphotis Zone’). Palaeoecological analysis produced six biofacies and four ecofacies, based on richness, dominance and ecological lifestyle. The bivalves inhabited lagoonal to nearshore environments affected by stressed conditions: high temperatures, high salinity, shallow water depths, low oxygen and high terrigenous input. The upper Bellerophon Fm is characterized by increasingly fully marine conditions, although eurytopic taxa still suggest stressed conditions. Bivalve richness of the upper Permian Bellerophon and Lower Triassic Werfen formations was compared to estimate the genus‐level extinction rate. The disappearance of almost half (47%) of Bellerophon Fm genera is remarkably low compared with other, coeval bivalve faunas. Pre‐extinction bivalve faunas were dominated by stress‐adapted taxa (Unionites, Eumorphotis, Bakevellia, Towapteria) able to thrive in extreme environmental conditions, survive the end‐Permian mass extinction, and become the dominant biotic component of Lower Triassic benthic communities globally.

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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.