Model of phylomorphogeny of P1 elements of the Tournaisian (Mississippian) siphonodellids

IF 1.5 4区地球科学 Q2 PALEONTOLOGY

Marine Micropaleontology Pub Date : 2023-09-01 DOI:10.1016/j.marmicro.2023.102294

Artem N. Plotitsyn, Andrey V. Zhuravlev

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引用次数: 0

Abstract

Conodonts are a group of extinct marine organisms widely used in Paleozoic and Triassic biostratigraphy. The genus Siphonodella comprises ozarkodinid conodonts from the latest Famennian to the middle Tournaisian. The phylogenetic model of this genus plays an important role in biostratigraphy. This study is based on the authors' and published data on 31 species of siphonodellids of cosmopolitan and East European groups. A new phylomorphogeny of Siphonodella is proposed on the basis of known mechanisms of morphological transformations of siphonodellid P₁ elements during speciation processes, presence of interspecies transitional forms, and data on ontogeny. The main morphogenetic pathways in the evolution of siphonodellids are the following: formation and transformation of the rostrum, transformation of the platform outline, transformation of the platform ornamentation, transformation of the keel, and histological transformations. In the process of modeling the phylomorphogeny of Siphonodella, some taxonomic problems are solved: a new species S. thompfelli is described, a new variant of the division of S. lobata (Branson and Mehl) into morphotypes is proposed, the validity of S. plana (Huddle), S. praeplana Bardasheva, Bardashev, Weddige and Ziegler, and S. gladia Zhuravlev and Plotitsyn is clarified, and the knowledge of the morphospace of most representatives of the genus is extended. The phylogeny of siphonodellids provides a basis for the new phylogenetic zonal sequences based on the conodont phylogenetic-zone concept.

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图尔纳斯(密西西比)虹吸管类P1元素的形态发生模式

牙形石是一组已灭绝的海洋生物，广泛应用于古生代和三叠纪的生物地层学中。Siphoondella属包括从最新法门阶到图尔奈阶中期的ozarkodinid牙形石。该属的系统发育模式在生物地层学中占有重要地位。这项研究基于作者和已发表的关于31种世界性和东欧类群虹管藻的数据。根据已知的管柱状P1元素在物种形成过程中的形态转化机制、种间过渡形式的存在以及个体发生的数据，提出了一种新的管柱形目形态发生学。虹管藻进化过程中的主要形态发生途径有：主席台的形成和转变、平台轮廓的转变、平台纹饰的转变、龙骨的转变和组织学转变。在对Siphoondella的系统形态发生进行建模的过程中，解决了一些分类学问题：描述了一个新物种S.thompfeli，提出了将S.lobata（Branson和Mehl）划分为形态类型的新变体，阐明了S.plana（Huddle）、S.praeplana Bardasheva、Bardashev、Weddige和Ziegler以及S.gladia Zhuravlev和Plotitsyn的有效性，并且扩展了该属大多数代表的形态空间的知识。虹管牙形石的系统发育为基于牙形石系统发育带概念的新系统发育带序列提供了基础。

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来源期刊

Marine Micropaleontology 地学-古生物学

CiteScore

3.70

自引率

15.80%

发文量

审稿时长

26.7 weeks

期刊介绍： Marine Micropaleontology is an international journal publishing original, innovative and significant scientific papers in all fields related to marine microfossils, including ecology and paleoecology, biology and paleobiology, paleoceanography and paleoclimatology, environmental monitoring, taphonomy, evolution and molecular phylogeny. The journal strongly encourages the publication of articles in which marine microfossils and/or their chemical composition are used to solve fundamental geological, environmental and biological problems. However, it does not publish purely stratigraphic or taxonomic papers. In Marine Micropaleontology, a special section is dedicated to short papers on new methods and protocols using marine microfossils. We solicit special issues on hot topics in marine micropaleontology and review articles on timely subjects.