Fluctuation in redox conditions and the evolution of early Cambrian life constrained by nitrogen isotopes in the middle Yangtze Block, South China

IF 2 3区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY Geological Magazine Pub Date : 2024-01-18 DOI:10.1017/s0016756823000833
Kai Wei, Hansheng Cao, Fajin Chen, Zaiyun Wang, Zhihui An, Hanli Huang, Chunqing Chen
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Abstract

The Ediacaran–Cambrian (E-C) transition (∼542–517 Ma) witnessed the rapid evolution of Cambrian animals, which was accompanied by carbon cycling anomalies and a significant increase in the concentration of oxygen in Earth’s atmosphere. The mechanisms stimulating the evolution of complex eukaryotes, however, remain problematic, especially concerning the link between biological evolution and contemporaneous changes in the oceanic environment. In this study, integrated δ13Ccarb–δ13Corg–δ15N compositions were analysed from the YD-4 core samples to understand redox fluctuations and nitrogen cycling of the middle Yangtze Block across the E-C transition. Two negative δ13Ccarb excursions (N1 and N2) and a positive δ13Ccarb excursion (P1) are identified from the studied samples and are supposedly of primary origin. Constrained by of the U-Pb age, biolithology and pattern of isotopic variation, N1, P1 and N2 are comparable to the Basal Cambrian Carbon Isotope Excursion (BACE), Zhujiaqing Carbon Isotope Excursion (ZHUCE) and Shiyantou Carbon Isotope Excursion (SHICE). We interpreted the decreased δ15N values in this study as resulting from intensified atmospheric nitrogen fixation driven by enhanced denitrification associated with expanded marine anoxia, as well as partial ammonium assimilation, while increased δ15N values suggest weakened denitrification associated with an amplified oxic water mass. The temporal coincidence of N1 and N2, with two episodes of negative δ15N excursions, and of P1, with a positive δ15N excursion, suggests that variable oceanic redox conditions and nitrogen bioavailability may have influenced the evolution of the Cambrian eukaryote-dominated community.
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华南长江中游区块氮同位素对氧化还原条件波动和寒武纪早期生命演化的制约
埃迪卡拉-寒武纪(E-C)过渡期(542-517Ma)见证了寒武纪动物的快速进化,与此同时,碳循环出现异常,地球大气中的氧气浓度显著增加。然而,刺激复杂真核生物进化的机制仍然存在问题,特别是生物进化与同期海洋环境变化之间的联系。本研究分析了YD-4岩芯样品的综合δ13Ccarb-δ13Corg-δ15N组成,以了解长江中游区块在E-C过渡期间的氧化还原波动和氮循环。从所研究的样品中发现了两个负的δ13Ccarb偏移(N1和N2)和一个正的δ13Ccarb偏移(P1),它们应该是原生的。受 U-Pb 年龄、生物岩石学和同位素变化规律的限制,N1、P1 和 N2 与基寒武纪碳同位素偏移(BACE)、朱家庆碳同位素偏移(ZHUCE)和石岩头碳同位素偏移(SHICE)相当。我们认为,本研究中δ15N 值的降低是由于海洋缺氧扩大导致反硝化作用增强以及部分铵同化所引起的大气固氮作用加强所致,而δ15N 值的升高则表明与缺氧水体扩大有关的反硝化作用减弱。N1 和 N2 两次出现负 δ15N 偏移,而 P1 则出现正 δ15N 偏移,两者在时间上的吻合表明,海洋氧化还原条件和氮的生物利用率的变化可能影响了寒武纪真核生物群落的演化。
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来源期刊
Geological Magazine
Geological Magazine 地学-地球科学综合
CiteScore
4.70
自引率
0.00%
发文量
111
审稿时长
3 months
期刊介绍: Geological Magazine, established in 1864, is one of the oldest and best-known periodicals in earth sciences. It publishes original scientific papers covering the complete spectrum of geological topics, with high quality illustrations. Its worldwide circulation and high production values, combined with Rapid Communications and Book Review sections keep the journal at the forefront of the field. This journal is included in the Cambridge Journals open access initiative, Cambridge Open Option.
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