Looking for the oldest diatoms

IF 1.5 4区地球科学 Q2 PALEONTOLOGY

Marine Micropaleontology Pub Date : 2024-06-01 DOI:10.1016/j.marmicro.2024.102371

Karolina Bryłka , Sylvain Richoz , Andrew J. Alverson , Daniel J. Conley

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引用次数: 0

Abstract

Paleontological observations of ancient flora and fauna provide powerful insights into past diversity and relationship dynamics between organisms and their environments. Diatoms are globally distributed protists that influence major biogeochemical cycles and sustain oceanic food webs. The fossil diatom record extends 120 million years back to the Early Cretaceous where rare deposits were discovered worldwide and are occasionally represented by diverse communities. However scarce, the taxonomic richness and geographical spread of these diatom communities suggest prior evolutionary events and therefore earlier deposits. To complement the existing fossil information and to discover diatom deposits predating 120 Ma, we examined 33 study sites from cores and outcrops across oceans and continents. These efforts did not generate new fossil discoveries, however. Our assessment suggests biogenic silica that comprises the cell wall of diatoms was likely dissolved from Mesozoic sediments through diagenetic processes. Altogether, the search for the oldest diatoms must continue but should target sediments that experienced shallow burial and concretions.

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寻找最古老的硅藻

古生物学对古动植物群的观察，为了解过去的多样性以及生物与其环境之间的动态关系提供了有力的信息。硅藻是分布于全球的原生生物，影响着主要的生物地球化学循环并维持着海洋食物网。硅藻化石的记录可追溯到 1.2 亿年前的早白垩世，当时世界各地都发现了稀有的硅藻沉积物，偶尔也会出现多样化的硅藻群落。尽管数量稀少，但这些硅藻群落丰富的分类学特征和地理分布表明，它们曾发生过进化事件，因此沉积时间较早。为了补充现有的化石信息并发现早于 120 Ma 的硅藻沉积，我们考察了 33 个研究地点，这些地点来自海洋和大陆的岩心和露头。然而，这些努力并没有带来新的化石发现。我们的评估表明，构成硅藻细胞壁的生物硅可能是通过成岩过程从中生代沉积物中溶解出来的。总之，寻找最古老硅藻的工作必须继续下去，但应以经历过浅埋和凝结的沉积物为目标。

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

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.