Evidence for Oceans pre-4300 Ma Confirmed by Preserved Igneous Compositions in Hadean Zircon

IF 2.7 3区地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS

American Mineralogist Pub Date : 2024-03-28 DOI:10.2138/am-2023-9180

Emilia M. Cameron, Tyler Blum, A. Cavosie, K. Kitajima, Lutz Nasdala, I. Orland, C. Bonamici, J. Valley

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引用次数: 0

Abstract

Detrital zircons from the Jack Hills are the dominant source of Hadean (pre-4000 Ma) terrestrial material available for study today. Values of δ18O in many of these zircons (6.0 to 7.5‰ are above the mantle-equilibrated value. For two decades, these mildly elevated values have been the primary evidence that protoliths of the zircon-forming magmas interacted at low temperature with liquid water before burial and melting, implying that the surface of Earth cooled quickly after core and moon formation, and that habitable conditions for life existed within 250 Myr of the formation of Earth, over 800 Myr before the oldest generally accepted microfossils. These conclusions are based on oxygen isotope analyses of zircon domains with well-defined growth zoning and nearly concordant U-Pb ages within zircon grains with low magnetic susceptibility, which are further inferred to be unaltered by various tests. However, no studies of Jack Hills zircons have directly correlated oxygen isotope ratios and radiation damage, which facilitates alteration in zircon. Several previous studies have selected zircons that show radiation damaged, discordant and/or hydrous domains, and have shown that such altered material is not reliable as a record of igneous composition. In contrast, this study targeted zircons that are interpreted to pristine and not altered, and demonstrates the importance of testing zircons for radiation damage and alteration as part of any geochemical study, regardless of age. This study expands on existing data, and presents the first comprehensive evaluation of δ18O, OH/O, CL imaging, U-Pb concordance and radiation-damage state within Jack Hills zircons. A total of 115 Hadean zircon grains in this study have water contents similar to nominally anhydrous standard reference zircons and are interpreted as pristine. In situ Raman data for band broadening correlated with δ18O analyses document low levels of radiation damage, indicating significant annealing. The present-day effective doses (Deff) are uniformly less than the first percolation point (dose where damage domains, that are isolated at lower damage state, overlap to form a continuous pathway through the crystal, ~2×1015 α-decays/mg, Ewing et al., 2003) and most zircons have Deff<1×1015 α-decays/mg. Modeling of representative alpha-recoil damage and annealing histories indicates that most zircons in this study have remained below the Deff of the first percolation point throughout their history. The δ18O values for these primary zircons include many that are higher than would be equilibrated with the mantle at magmatic temperatures and average 6.32 ± 1.3‰ in the Hadean and 6.26 ± 1.6‰ in the Archean. There is no correlation in our suite of pristine Hadean zircons between δ18O and OH/O, Deff, age, or U-Pb age-concordance. These carefully documented Hadean-age zircons possess low amounts of radiation damage in domains sampled by δ18O analysis, are water-poor. The mildly elevated δ18O values are a primary-magmatic geochemical signature. These results strengthen the conclusion that mildly elevated-δ18O magmas existed during the Hadean, supporting the hypothesis that oceans and a habitable Earth existed before 4300 Ma.

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哈代锆石中保留的火成岩成分证实了 4300 Ma 以前的海洋证据

杰克山的碎屑锆石是目前可研究的哈代（4000Ma以前）陆地物质的主要来源。其中许多锆石的δ18O值（6.0-7.5‰）都高于地幔平衡值。二十年来，这些轻度升高的数值一直是锆石形成岩浆的原岩在埋藏和熔化前与液态水发生低温作用的主要证据，这意味着地球表面在地核和月球形成后迅速冷却，在地球形成后 250 Myr 内就存在适合生命居住的条件，这比公认的最古老的微化石要早 800 多 Myr。这些结论的依据是对具有明确生长分带的锆石域进行的氧同位素分析，以及对具有低磁感应强度的锆石晶粒进行的几乎一致的 U-Pb 年龄分析。然而，对杰克山锆石的研究还没有将氧同位素比率与辐射损伤直接联系起来，而辐射损伤会促进锆石的蚀变。之前的几项研究选择了出现辐射损伤、不和谐和/或水合畴的锆石，结果表明，这类改变的材料作为火成岩成分的记录并不可靠。与此相反，本研究选取的锆石被解释为原始的、未被改变的锆石，并证明了作为地球化学研究的一部分，无论年代如何，对锆石进行辐射损伤和改变测试的重要性。该研究扩展了现有数据，首次对杰克山锆石的δ18O、OH/O、CL成像、U-Pb一致性和辐射损伤状态进行了全面评估。在这项研究中，共有 115 个哈代锆石晶粒的含水量与名义上的无水标准参考锆石相似，并被解释为原始锆石。与 δ18O 分析相关的带宽原位拉曼数据记录了低水平的辐射损伤，表明存在明显的退火现象。目前的有效剂量（Deff）普遍低于第一渗滤点（在此剂量下，在较低损伤状态下孤立的损伤域重叠形成一条连续的途径穿过晶体，~2×1015 α-decays/mg，Ewing 等人，2003 年），大多数锆石的 Deff<1×1015 α-decays/mg。对具有代表性的α-反弹性损伤和退火历史的建模表明，本研究中的大多数锆石在其整个历史中都保持在第一个渗滤点的 Deff 值以下。这些原生锆石的δ18O值有许多高于在岩浆温度下与地幔平衡时的值，在黑云纪平均为6.32 ± 1.3‰，在阿寒纪平均为6.26 ± 1.6‰。在我们这套原始的哈代锆石中，δ18O与OH/O、Deff、年龄或U-Pb年龄一致性之间没有相关性。这些经过仔细记录的哈代锆石在通过δ18O分析采样的区域内具有较低的辐射损伤，并且贫水。轻度升高的δ18O值是一种原生物质地球化学特征。这些结果加强了哈代时期存在轻度升高δ18O岩浆的结论，支持了4300Ma之前存在海洋和宜居地球的假说。

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来源期刊

American Mineralogist 地学-地球化学与地球物理

CiteScore

5.20

自引率

9.70%

发文量

276

审稿时长

1 months

期刊介绍： American Mineralogist: Journal of Earth and Planetary Materials (Am Min), is the flagship journal of the Mineralogical Society of America (MSA), continuously published since 1916. Am Min is home to some of the most important advances in the Earth Sciences. Our mission is a continuance of this heritage: to provide readers with reports on original scientific research, both fundamental and applied, with far reaching implications and far ranging appeal. Topics of interest cover all aspects of planetary evolution, and biological and atmospheric processes mediated by solid-state phenomena. These include, but are not limited to, mineralogy and crystallography, high- and low-temperature geochemistry, petrology, geofluids, bio-geochemistry, bio-mineralogy, synthetic materials of relevance to the Earth and planetary sciences, and breakthroughs in analytical methods of any of the aforementioned.