Paired mass-dependent and mass-independent Hg isotope excursions through non-euxinic intervals: Signals of post-depositional Hg isotope fractionation?

IF 3.6 2区地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS

Chemical Geology Pub Date : 2025-03-02 DOI:10.1016/j.chemgeo.2025.122718

Guanyu Zhao , Qian Deng , Bin Cheng , Yunpeng Wang , Zewen Liao

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Abstract

Mercury (Hg) in sedimentary deposits has become a widely used proxy for reconstructing paleo-volcanic activity. However, a comprehensive understanding of Hg accumulation pattern and the isotope variation during early diagenesis is still lacking. A thorough diagenetic evaluation of sedimentary rocks is crucial prior to the interpretation of geochemical data, as diagenetic changes can lead to considerable differences between the original seawater signatures and the sedimentological records. We observed a Hg isotopic pattern characterized by a negative trend in δ²⁰²Hg with a concurrent gradual positive shift in Δ¹⁹⁹Hg throughout non-euxinic intervals in multiple marine sedimentary successions. We propose that the synchronous Hg mass dependent fractionation (MDF) and mass independent fractionation (MIF) were driven by diagenetic events. The release of organic-bound Hg and its subsequent diffusion downward to sites where it complexed with pyrite in early diagenetic stages may induce δ²⁰²Hg shift towards more negative values in the Hg precipitate, and in turn, contribute to the concurrent positive shift of Δ¹⁹⁹Hg observed in these sections.

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非紫新统区间与质量相关和与质量无关的成对汞同位素偏移：沉积后汞同位素分馏的信号？

沉积沉积物中的汞（Hg）已成为重建古火山活动的一个广泛使用的指标。然而，对早期成岩过程中汞的富集模式和同位素变化仍缺乏全面的认识。在解释地球化学数据之前，对沉积岩进行全面的成岩作用评价是至关重要的，因为成岩作用的变化可能导致原始海水特征与沉积学记录之间的巨大差异。在多个海相沉积序列中，δ202Hg呈负向变化，同时Δ199Hg呈逐渐正移。我们认为汞的同步质量依赖分馏（MDF）和质量不依赖分馏（MIF）是由成岩事件驱动的。在早期成岩阶段，有机结合汞的释放及其随后向下扩散到与黄铁矿络合的位置，可能导致汞沉淀中的δ202Hg向负值偏移，进而导致这些剖面中观测到的Δ199Hg同时正偏移。

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来源期刊

Chemical Geology 地学-地球化学与地球物理

CiteScore

7.20

自引率

10.30%

发文量

374

审稿时长

3.6 months

期刊介绍： Chemical Geology is an international journal that publishes original research papers on isotopic and elemental geochemistry, geochronology and cosmochemistry. The Journal focuses on chemical processes in igneous, metamorphic, and sedimentary petrology, low- and high-temperature aqueous solutions, biogeochemistry, the environment and cosmochemistry. Papers that are field, experimentally, or computationally based are appropriate if they are of broad international interest. The Journal generally does not publish papers that are primarily of regional or local interest, or which are primarily focused on remediation and applied geochemistry. The Journal also welcomes innovative papers dealing with significant analytical advances that are of wide interest in the community and extend significantly beyond the scope of what would be included in the methods section of a standard research paper.