Weathering in a regolith on the Werenskioldbreen Glacier forefield (SW Spitsbergen). 2. Speciation of Fe, Mn, Pb, Cu and Zn in the chronosequence

IF 1.2 4区地球科学 Q2 GEOLOGY

Annales Societatis Geologorum Poloniae Pub Date : 2019-12-20 DOI:10.14241/ASGP.2019.06

G. Rzepa, M. Manecki, Grzegorz Jakubski, M. Kwaśniak-Kominek, J. Czerny, D. Górniak

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引用次数: 1

Abstract

The evolution of chemical speciation of Fe, Mn, Pb, Cu, and Zn was investigated in the chronosequence of young sediments, exposed by a currently retreating Arctic glacier on Spitsbergen. Werenskioldbreen is a 27 km 2 subpolar, land-terminated, polythermal glacier in recession, located near the SW coast of West Spitsbergen. Three samples of structureless till were collected at locations exposed for 5, 45 and 70 years. Four grain-size fractions were separated: > 63, 20–63, 2–20, and < 2 μm. Speciation of Fe, Mn, Pb, Cu, and Zn was determined using a 6-step sequential chemical extraction method: 1) 1 M sodium acetate, 2) 1 M hydroxylamine hydrochloride in acetic acid, 3) sodium dithionite in buffer, 4) acid ammonium oxalate, 5) boiling HCl, 6) residuum. The weathering in the proglacial area of the retreating glacier is very fast. The geochemical fates of the metals in question correlate with each other, reflecting a) the geochemical similarities between them, b) the similarities of their primary mineral sources, c) the significant role of incongruent dissolution. The weathering processes dominating the system are redox reactions and incongruent dissolution, followed by precipitation of secondary phases and partial sorption of aqueous species. As a result, the elements released from weathering minerals are only partially transported away from the system. The remaining part transforms by weathering from the coarse-grained fraction (dominated by fragments of primary minerals) into the fine-grained fraction (in the form of secondary, authigenic minerals or as species sorbed onto a mineral skeleton). This is very strongly pronounced within the chronosequence: the content of each of the metals studied correlates identically with the grain size, despite the differences in their chemical character and affinities. The microscope study presented herein indicates that the role of incongruent dissolution previously was underestimated. Also, the formation of coatings of secondary phases on primary mineral surfaces was observed. All these rapid weathering processes affect the mineral speciation of initial soils as well as the composition of mineral suspensions transported away by rivers to the nearby ocean.

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斯匹次卑尔根岛西南的Werenskioldbreen冰川前场的风化层。2. 铁、锰、铅、铜和锌在时间序列上的形态

在目前正在消退的斯匹次卑尔根北极冰川暴露的年轻沉积物的时间序列中，研究了Fe、Mn、Pb、Cu和Zn的化学形态演变。Werenskioldbreen是一个27公里2的副极地，陆地终止，处于衰退中的多热冰川，位于西斯匹次卑尔根西南海岸附近。在暴露5年、45年和70年的位置采集了三个无结构的til样本。分离出四种粒度级分：>63、20-63、2-20和<2μm。Fe、Mn、Pb、Cu和Zn的形态使用6步顺序化学萃取法测定：1）1M乙酸钠，2）1M羟胺盐酸盐在乙酸中的溶液，3）连二亚硫酸钠在缓冲液中的溶液、4）酸性草酸铵、5）沸腾HCl、6）残留物。冰川退缩的前冰川区的风化速度非常快。有关金属的地球化学命运相互关联，反映了a）它们之间的地球化学相似性，b）它们主要矿物来源的相似性，c）不协调溶解的重要作用。主导该系统的风化过程是氧化还原反应和不协调溶解，其次是次生相的沉淀和水性物质的部分吸附。因此，风化矿物释放的元素仅部分从系统中运输出去。其余部分通过风化从粗粒部分（主要由原生矿物碎片组成）转变为细粒部分（以次生自生矿物的形式或吸附在矿物骨架上的物种形式）。这一点在时间序列中非常明显：所研究的每种金属的含量都与粒度有着相同的相关性，尽管它们的化学性质和亲和力存在差异。本文的显微镜研究表明，不一致溶解的作用以前被低估了。此外，还观察到在原生矿物表面形成了次生相涂层。所有这些快速风化过程都会影响初始土壤的矿物形态，以及河流输送到附近海洋的矿物悬浮液的组成。

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

Annales Societatis Geologorum Poloniae 地学-地质学

CiteScore

2.60

自引率

7.70%

发文量

审稿时长

>12 weeks

期刊介绍： Annales Societatis Geologorum Poloniae (ASGP) is the scientific journal of the Polish Geological Society. Original contributions and review articles are considered for publication in Annales Societatis Geologorum Poloniae. Submissions for publication may be from all branches of the geological sciences, including applied and economic geology, as well as discussions of papers, previously published in the journal. The language of the journal is English.