Isotopic history of seawater: the stable isotope character of the global ocean at present and in the geological past.

IF 1.1 4区 环境科学与生态学 Q4 CHEMISTRY, INORGANIC & NUCLEAR Isotopes in Environmental and Health Studies Pub Date : 2023-08-01 Epub Date: 2023-12-12 DOI:10.1080/10256016.2023.2271127
Jochen Hoefs, Russell S Harmon
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Abstract

After the atmosphere, the ocean is the most well-mixed and homogeneous global geochemical reservoir. Both physical and biological processes generate elemental and isotope variations in seawater. Contrasting geochemical behaviors cause elements to be susceptible to different fractionation mechanisms, with their isotopes providing unique insights into the composition and evolution of the ocean over the course of geological history. Supplementing the traditional stable isotopes (H, C, O, N, S) that provide information about ocean processes and past environmental conditions, radiogenic isotope (Sr, Nd, Os, Pb, U) systems can be used as time markers, indicators of terrestrial weathering, and ocean water mass mixing. Recent instrumentation advances have made possible the measurement of natural stable isotope variations produced by both mass-dependent and mass-independent fractionation for an ever-increasing number of metal elements (e.g. Li, B, Mg, Si, Ca, V, Cr, Fe, Ni, Cu, Zn, Se, Mo, Cd, Tl, U). The major emphasis in this review is on the isotopic composition of the light elements based on a comparatively large literature. Unlike O, H and S, the stable isotopes of C, N and Si do not have a constant isotopic composition in the modern ocean. The major cations Ca, Mg, and Sr fixed in carbonate shells provide the best proxies for reconstruction of the composition of the ocean in the past. Exhibiting large isotope enrichments in ocean water, B and Li are suitable for the investigation of water/rock interactions and can act as monitors of former oceanic pH. The bioessential elements Zn, Cd, and Ni are indicators of paleoproductivity in the ocean. Characteristic isotope enrichments or depletions of the multivalent elements V, Cr, Fe, Se, Mo, and U record the past redox state of the ocean/atmosphere system. Case studies describe how isotopes have been used to define the seawater composition in the geological past.

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海水的同位素历史:全球海洋在现在和地质过去的稳定同位素特征。
海洋是继大气之后混合最均匀的全球地球化学储层。物理和生物过程都会在海水中产生元素和同位素的变化。对比的地球化学行为使元素容易受到不同的分馏机制的影响,它们的同位素为地质历史过程中海洋的组成和演化提供了独特的见解。作为提供海洋过程和过去环境条件信息的传统稳定同位素(H、C、O、N、S)的补充,放射成因同位素(Sr、Nd、Os、Pb、U)系统可以用作时间标记、陆地风化和海洋水团混合的指标。最近仪器的进步使得测量由不断增加的金属元素(例如,Li、B、Mg、Si、Ca、V、Cr、Fe、Ni、Cu、Zn、Se、Mo、Cd、Tl、U)的质量依赖性和质量无关性分馏产生的天然稳定同位素变化成为可能。这篇综述的主要重点是基于大量文献的轻元素同位素组成。与O、H和S不同,C、N和Si的稳定同位素在现代海洋中没有恒定的同位素组成。碳酸盐壳中固定的主要阳离子Ca、Mg和Sr为重建过去的海洋成分提供了最佳的替代品。B和Li在海水中表现出大量同位素富集,适合于水/岩石相互作用的研究,并可作为前海洋pH值的监测器。生物元素Zn、Cd和Ni是海洋古生产力的指标。多价元素V、Cr、Fe、Se、Mo和U的特征同位素富集或贫化记录了海洋/大气系统过去的氧化还原状态。案例研究描述了同位素在过去的地质中是如何被用来定义海水成分的。
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来源期刊
CiteScore
2.80
自引率
7.70%
发文量
21
审稿时长
3.0 months
期刊介绍: Isotopes in Environmental and Health Studies provides a unique platform for stable isotope studies in geological and life sciences, with emphasis on ecology. The international journal publishes original research papers, review articles, short communications, and book reviews relating to the following topics: -variations in natural isotope abundance (isotope ecology, isotope biochemistry, isotope hydrology, isotope geology) -stable isotope tracer techniques to follow the fate of certain substances in soil, water, plants, animals and in the human body -isotope effects and tracer theory linked with mathematical modelling -isotope measurement methods and equipment with respect to environmental and health research -diagnostic stable isotope application in medicine and in health studies -environmental sources of ionizing radiation and its effects on all living matter
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