白垩纪硅藻数据库:研究早期硅藻演化的工具。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-08-31 DOI:10.1111/jpy.13499
Karolina Bryłka, Matt P. Ashworth, Andrew J. Alverson, Daniel J. Conley
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引用次数: 0

摘要

白垩纪是硅藻首次出现在化石记录中的时期。这些化石为我们提供了硅藻族群的年龄和早期演化的直接证据。然而,化石记录并不完整,因此通常通过时间校准系统发生学来推断。这两种方法为硅藻的早期演化提供了不同的视角,而人们对硅藻的早期演化仍然知之甚少。我们编制了第一个全面的白垩纪硅藻数据库,这是一个研究已知最早硅藻系的分类、多样性和出现的工具。为了进一步帮助在分子钟分析中整合和利用最古老的硅藻化石,我们提出了一组有据可查的白垩纪化石,这些化石可被置于现生和已灭绝物种的分子系统发生树上,使它们成为校准分子钟的理想候选者。对化石记录和白垩纪硅藻数据库的分析表明,白垩纪硅藻的多样性远远超过了之前的想象,但仍需要进行大量的分类工作。白垩纪硅藻数据库和用于校准分子钟的白垩纪化石清单是未来对现代和化石硅藻进行进化和分类研究的宝贵资源。
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The Cretaceous Diatom Database: A tool for investigating early diatom evolution

The Cretaceous period is the time of the first appearance of the diatoms in the fossil record. These fossils give us direct evidence of the age and early evolution of the diatom lineage. The fossil record, however, is incomplete and therefore often extrapolated through time-calibrated phylogenies. These two approaches offer different perspectives on the early evolution of diatoms, which is still poorly understood. We compiled the first comprehensive Cretaceous Diatom Database, a tool to investigate the taxonomy, diversity, and occurrence of the earliest known diatom lineages. To further aid the integration and use of the oldest diatom fossils in molecular clock analyses, we present a set of well-documented Cretaceous fossils that can be placed onto molecular phylogenetic trees of extant and extinct species, making them ideal candidates for the calibration of molecular clocks. The analysis of the fossil record and the Cretaceous Diatom Database revealed Cretaceous diversity is substantially greater than previously thought, yet considerable taxonomic work is still needed. The Cretaceous Diatom Database and the list of Cretaceous fossils for calibrating molecular clocks represent valuable resources for future evolutionary and taxonomic studies of modern and fossil diatoms.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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