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Diagenetic cycling and diffusive/benthic fluxes of iron and manganese in sediments of a large semi-enclosed sea remote to major rivers

IF 3.6 2区地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS

Chemical Geology Pub Date : 2024-12-27 DOI:10.1016/j.chemgeo.2024.122601

Wen-Xuan Sun, Mao-Xu Zhu, Gui-Peng Yang, Tie Li, Qing-Qing Li, Zhen Xu, Ying-Jian Han

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引用次数: 0

Abstract

Dissolved iron (DFe) and manganese (DMn) diffusive/benthic fluxes and DFe species in sediments of marginal seas not dominated by major upwelling or riverine inputs have not been well documented. Here, solid-phase and porewater chemistry of sediments was used to quantify diffusive/benthic fluxes of DFe and DMn, and to elucidate the factors governing the fluxes from muddy sediments of the South Yellow Sea (SYS), a representative semi-enclosed shelf sea remote to major rivers. Results show that porewater DFe is produced mainly by dissimilatory iron reduction coupled to organic carbon (OC) mineralization, while DMn is produced dominantly by Mn-oxide reduction coupled to Fe2+ oxidation. Most upwardly diffusing Fe2+ is oxidized in the oxic sediment layer, while organic-Fe(III) complexes is mainly responsible for benthic DFe release, with its relative contributions from 63 % to nearly 100 %. Unlike DFe, DMn is expected to effectively diffuse upward into the overlying water, indicated by nearly 1:1 ratios of its diffusive fluxes to depth-integrated rates of production. Benthic fluxes of DFe (0.98–5.8 μmol/m2/d) and DMn (1.3–249 μmol/m2/d) from the SYS muddy sediments exhibit a high spatial heterogeneity, with a “sweet spot” at the western area, which is controlled largely by local/regional depositional settings and, to a less extent, by local diagenetic regimes. Overall, the semi-enclosed SYS sediment is not a hotspot of benthic DFe release, compared to other marginal seas under various depositional settings, which is attributable to low availability of labile OC and reactive Fe due to its remoteness to major rivers. Unlike DFe, benthic DMn fluxes in the SYS are comparable to those in other marginal seas including river-dominated areas, which is ascribable to refluxing-induced Mn enrichment in surface sediments as a common mechanism to sustain Mn redox cycling and benthic release.

查看原文本刊更多论文

远离主要河流的大型半封闭海沉积物中铁和锰的成岩循环和扩散/底栖通量

边缘海沉积物中溶解铁（DFe）和锰（DMn）的扩散通量/底栖通量和DFe种类没有得到很好的记录，这些沉积物不受主要上升流或河流输入的支配。本文利用沉积物固相化学和孔隙水化学定量分析了南黄海泥质沉积物中DFe和DMn的扩散通量和底栖通量，阐明了南黄海泥质沉积物中DFe和DMn通量的控制因素。结果表明：孔隙水中DFe主要通过异化铁还原耦合有机碳矿化生成，DMn主要通过mn -氧化物还原耦合Fe2+氧化生成。大多数向上扩散的Fe2+在含氧沉积层中被氧化，而有机- fe （III）配合物主要负责底栖DFe的释放，其相对贡献从63%到接近100%。与DFe不同的是，DMn有望有效地向上扩散到上覆水中，其扩散通量与深度综合生产速率的比例接近1:1。SYS泥质沉积物中DFe （0.98 ~ 5.8 μmol/m2/d）和DMn （1.3 ~ 249 μmol/m2/d）的底栖生物通量表现出较高的空间异质性，其“甜点”位于西部，主要受局部/区域沉积环境的控制，局部成岩机制的影响较小。总体而言，在不同沉积环境下，与其他边缘海相比，半封闭的SYS沉积物不是底栖生物DFe释放的热点，这是由于其远离主要河流，活性OC和活性Fe的有效性较低。与DFe不同，SYS中的底栖DMn通量与其他边缘海（包括河流主导区域）的通量相当，这可归因于表层沉积物中回流诱导的Mn富集，这是维持Mn氧化还原循环和底栖生物释放的共同机制。

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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来源期刊

Chemical Geology

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.

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