Sedimentary Mercury Enrichments as a Tracer of Large Igneous Province Volcanism

Large Igneous Provinces Pub Date : 2021-01-08 DOI:10.1002/9781119507444.CH11

L. Percival, B. Bergquist, T. Mather, H. Sanei

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引用次数: 23

Abstract

Volcanic activity associated with the emplacement of Large Igneous Provinces (LIPs) has been linked to most Phanerozoic extinctions/episodes of major environmental change. In recent years, mercury (Hg) enrichments and elevated mercury/total organic carbon (Hg/TOC) ratios have been increasingly utilized as a marker of volcanism in sedimentary records deposited distally from LIPs. The proxy is based on the premise that volcanism is a major natural source of the element to the atmosphere, and that it was especially important prior to anthropogenic emissions. To date, end-Permian and end-Triassic records illustrate the strongest use of Hg as a marker of volcanic activity, supplemented by the use of Hg isotopes and other evidence for LIP eruptions and volatile emissions. Sedimentary records of several other events also document Hg enrichments in at least one region, suggestive of a regional- or global-scale perturbation to the Hg cycle at those times, potentially linked to volcanism. The Cenomanian– Turonian Oceanic Anoxic Event 2 appears to be the exception, with strata documenting peaks in Hg/TOC in a small minority of studied records, suggesting that there was only a minimal perturbation to the Hg cycle at that time. Even for events where a global Hg-cycle perturbation apparently occurred, varying Hg enrichments documented from individual archives of the same event indicate that the complex biogeochemical cycling of mercury can result in a strong influence of local/regional aquatic, biological, or sedimentary processes on the precise signature of any worldwide disturbance. Of additional intrigue is an apparent lack of correlation of Hg and Hg/TOC with other volcanic proxies such as osmium isotopes, suggesting that the two systems record different aspects of LIP volcanism and emplacement. Recent studies are beginning to investigate these above complexities, but further work is needed to fully explore the nuances of Hg in the geological record, and how it can be best employed as a proxy for LIP volcanism.

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沉积汞富集作为大火成岩省火山活动的示踪剂

与大火成岩省(lip)就位相关的火山活动与大多数显生宙灭绝/重大环境变化事件有关。近年来，汞(Hg)的富集和汞/总有机碳(Hg/TOC)比值的升高越来越多地被用作lip远端沉积记录中火山活动的标志。这种替代方法是基于这样一个前提，即火山活动是大气中该元素的主要自然来源，而且在人为排放之前它尤为重要。迄今为止，二叠纪末和三叠纪末的记录表明，汞作为火山活动标志的作用最为明显，此外，汞同位素的使用和LIP喷发和挥发性排放物的其他证据也起到了补充作用。其他几个事件的沉积记录也记录了至少一个地区的汞富集，这表明在那些时期，汞循环受到了区域或全球范围的扰动，可能与火山作用有关。Cenomanian - Turonian Oceanic Anoxic Event 2似乎是个例外，在少数研究记录中，地层记录了汞/TOC的峰值，这表明当时对汞循环的扰动很小。即使在明显发生全球汞循环扰动的事件中，同一事件的个别档案记录的不同汞富集程度表明，复杂的汞生物地球化学循环可能导致当地/区域水生、生物或沉积过程对任何全球扰动的精确特征产生强烈影响。更令人好奇的是，汞和汞/TOC与其他火山指标(如锇同位素)明显缺乏相关性，这表明这两个系统记录了LIP火山作用和侵位的不同方面。最近的研究已经开始调查上述这些复杂性，但还需要进一步的工作来充分探索地质记录中汞的细微差别，以及如何最好地将其作为LIP火山活动的代表。

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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Large Igneous Provinces

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