Geochemistry and Sm─Nd─Fe─Si isotope compositions as insights into the deposition of the late Neoarchean Qidashan banded iron formation, North China Craton

IF 4.4 2区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS Mineralium Deposita Pub Date : 2024-01-09 DOI:10.1007/s00126-024-01245-8
Changle Wang, Zidong Peng, Xiaoxue Tong, Liang Gao, Lianchang Zhang
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Abstract

Banded iron formations (BIFs) are chemical sediments that reflect the composition of the seawater from which they were deposited. Therefore, they provide a key part of the evidence for the modern scientific understanding of paleoenvironmental conditions in Archean and Paleoproterozoic times. Although BIFs have been extensively studied, many aspects (e.g., specific mechanisms controlling iron (Fe) and silicon (Si) precipitations) of their origin still remain enigmatic because of the lack of modern analogues. In China, abundant BIFs occur throughout within the late Neoarchean volcanic and sedimentary succession and therefore are the principal source of Fe for the Chinese steel industry. Here, we examine the ~ 2.53 Ga Qidashan BIF, one of the most extensive BIFs in China, by conducting a detailed petrographic and multi-proxy investigation to well constrain its formation mechanism. The BIF consists mainly of magnetite and quartz with lesser amounts of calcite and various types of silicate minerals, of which the content of Al-rich minerals (i.e., chlorite) is rare, coupled with a low abundance of detrital geochemical indicators (e.g., Al and Ti), suggesting that the BIF is relatively pure with insignificant terrigenous contamination. A wide range of Nd isotope compositions and shale-normalized patterns and specific anomalies of rare earth elements, especially highly positive Eu anomalies, indicate that the BIF precipitated from seawater imprinted by high-temperature hydrothermal fluids. Furthermore, there is a significantly negative correlation between Nd isotope values and total Fe contents of the BIF. This suggests that such enhanced hydrothermal activity provided vast volumes of dissolved Fe(II) necessary for the formation of the BIF via alteration of ancient continental crust. In addition, the Qidashan BIF was deposited under pervasively anoxic conditions, as revealed by the absence of shale-normalized Ce anomalies and the presence of consistently positive Fe isotope values. Hence, anoxygenic photosynthesis is the most plausible mechanism responsible for Fe(II) oxidation. Given that Fe─Si bonding has a strong impact on Si isotope fractionation, the formation of primary Fe(III) oxyhydroxides should have exerted a first-order control on the negative Si isotope signatures observed in the studied BIF samples. It is also noted that the BIF possesses a variation of negative Si isotope values, further implying that diagenetic dissolution and reprecipitation of silica took place after primary Si precipitation associated with Fe.

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地球化学和 Sm─Nd─Fe─Si 同位素组成对华北克拉通新元古代晚期齐大山带状铁矿沉积的启示
带状铁地层(BIFs)是一种化学沉积物,反映了沉积时海水的成分。因此,它们为现代科学了解阿新世和古近代的古环境条件提供了重要证据。尽管对 BIFs 进行了广泛的研究,但由于缺乏现代类似物,其起源的许多方面(如控制铁(Fe)和硅(Si)沉淀的具体机制)仍然是个谜。在中国,新元古代晚期的火山岩和沉积岩演替中遍布着丰富的 BIFs,因此它们是中国钢铁工业的主要铁元素来源。在此,我们通过详细的岩石学和多代理研究,对中国范围最广的BIF之一--约2.53 Ga的齐大山BIF进行了研究,以充分确定其形成机制。该BIF主要由磁铁矿和石英组成,含有少量方解石和各种硅酸盐矿物,其中富铝矿物(如绿泥石)含量稀少,且碎屑地球化学指标(如Al和Ti)含量较低,表明该BIF较为纯净,土著污染不明显。广泛的钕同位素组成和页岩归一化模式以及稀土元素的特定异常,特别是高正 Eu 异常,表明 BIF 是由高温热液注入的海水沉淀而成。此外,BIF 的钕同位素值与总铁含量之间存在明显的负相关。这表明,这种增强的热液活动提供了大量溶解的铁(II),这是通过改变古大陆地壳形成 BIF 所必需的。此外,齐大山 BIF 是在普遍缺氧的条件下沉积的,这一点从页岩归一化 Ce 异常值的缺失和铁同位素值持续为正值可以看出。因此,缺氧光合作用是造成铁(II)氧化的最合理机制。鉴于 Fe─Si 键对 Si 同位素分馏有很大影响,原生 Fe(III)氧氢氧化物的形成应该对在所研究的 BIF 样品中观察到的负 Si 同位素特征有一阶控制作用。我们还注意到,BIF 具有负硅同位素值的变化,这进一步表明,在与铁有关的原生硅沉淀之后,硅发生了成岩溶解和再沉淀。
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来源期刊
Mineralium Deposita
Mineralium Deposita 地学-地球化学与地球物理
CiteScore
11.00
自引率
6.20%
发文量
61
审稿时长
6 months
期刊介绍: The journal Mineralium Deposita introduces new observations, principles, and interpretations from the field of economic geology, including nonmetallic mineral deposits, experimental and applied geochemistry, with emphasis on mineral deposits. It offers short and comprehensive articles, review papers, brief original papers, scientific discussions and news, as well as reports on meetings of importance to mineral research. The emphasis is on high-quality content and form for all articles and on international coverage of subject matter.
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