A comparative study of clay mineral authigenesis in terrestrial and martian lakes; an Australian example

IF 1.9 3区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY American Journal of Science Pub Date : 2021-09-01 DOI:10.2475/07.2021.03
T. Bristow, A. Derkowski, D. Blake, G. Berlanga, P. Deckker
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引用次数: 2

Abstract

Clay mineral-bearing mudstones are a prominent component of ancient fluvial-lacustrine deposits, 100s of meters thick, documented by the Mars Science Laboratory (MSL) rover, in Gale crater, Mars. Most of the clay minerals documented by MSL are hypothesized to have formed in situ, at or close to the time of deposition ∼3.5 Ga ago, by aqueous alteration of basaltic detritus. Here we study the mechanisms, controls, and timescales of clay mineral authigenesis in a series of lakes with a wide range of water chemistries from the Western Volcanic District, Victoria, SE Australia, as an analog to the Gale crater mudstones. X-ray diffraction (XRD) analysis reveals that the sediments of most of the Western Volcanic District lakes studied contain mixtures of kaolinite, illite, mixed-layer illite-smectite (I-S), and dioctahedral smectite clay minerals. Comparisons of this mineral assemblage with regional soils and creek bedload material confirm previous assertions of significant inputs of detrital clay minerals into the lakes. A trioctahedral clay mineral phase is also detected, making up to 39 wt.% of bulk sediments. The abundance of trioctahedral clay minerals correlates with contemporary lake hydrology and proxies for past lake water Mg concentration. This indicates in situ formation of trioctahedral clay minerals by the uptake of Mg and Si from lake waters and pore fluids at rates determined by local physico-chemical conditions. Examination of crater lake sediments, where detrital clay mineral input is minimized, demonstrate that neoformed trioctahedral clay minerals are poorly crystalline trioctahedral smectites. Neoformation of trioctahedral smectites also occurs in lakes where detrital clay minerals are more abundant. However, an additional authigenic transformation process is indicated by the proportions of Mg and Si added to detrital clay minerals as well as evidence for the uptake of K from lake waters. The transformation process probably involved the incorporation of Mg into the octahedral sheets of detrital clay minerals, leading to irreversible uptake of K into interlayer sites (illitization). The distribution of trioctahedral smectites and radiocarbon ages from sediment cores show that clay mineral authigenesis occurred before sediment consolidation, on timescales of years to 100s of years. These results support syndepositional interpretations of analogous Mg-rich clay minerals documented by MSL, and their use as proxies for chemical conditions in ancient Gale lakes. In comparison with the Western Volcanic District lakes, clay mineral-bearing lacustrine mudstones from Gale crater exhibit only modest chemical weathering of basaltic detrital materials and rarely contain carbonate minerals in quantities detectable by XRD. These observations highlight significant differences in weathering regimes and regolith mineralogy on ancient Mars that could be linked to lake catchment geomorphology, climate, atmospheric CO2 content, and the absence of biotic processes on Mars.
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陆地湖泊和火星湖泊中粘土矿物自生的比较研究;澳大利亚的一个例子
火星科学实验室(MSL)火星车在火星盖尔陨石坑记录到,含有粘土矿物的泥岩是100米厚的古代河流-湖泊沉积物的重要组成部分。MSL记录的大多数粘土矿物被假设是在沉积时间~3.5 Ga之前或接近沉积时间通过玄武岩碎屑的水性蚀变原位形成的。在这里,我们研究了澳大利亚东南部维多利亚州西部火山区一系列具有广泛水化学成分的湖泊中粘土矿物自生的机制、控制和时间尺度,类似于盖尔火山口泥岩。X射线衍射(XRD)分析表明,所研究的大多数西部火山区湖泊的沉积物含有高岭石、伊利石、混合层伊利石-蒙脱石(I-S)和二八面体蒙脱石粘土矿物的混合物。将这种矿物组合与区域土壤和河流推移质物质进行比较,证实了之前关于碎屑粘土矿物向湖泊中大量输入的断言。还检测到三面体粘土矿物相,占散装沉积物的39重量%。三面体粘土矿物的丰度与当代湖泊水文和过去湖水镁浓度的指标相关。这表明通过以当地物理化学条件确定的速率从湖水和孔隙流体中吸收Mg和Si,原位形成了三面体粘土矿物。对火山口湖沉积物的检查表明,新形成的三八面体粘土矿物是结晶性较差的三八面体蒙脱石。三面体蒙脱石的新形成也发生在碎屑粘土矿物更丰富的湖泊中。然而,添加到碎屑粘土矿物中的Mg和Si的比例以及从湖水中吸收K的证据表明了额外的自生转化过程。转化过程可能涉及将Mg掺入碎屑粘土矿物的八面体片中,导致K不可逆地吸收到层间位置(矿化)。沉积物岩芯中八面体蒙脱石的分布和放射性碳年龄表明,粘土矿物自生发生在沉积物固结之前,时间尺度为年至100年。这些结果支持MSL记录的类似富镁粘土矿物的同沉积解释,以及它们作为古代盖尔湖化学条件的替代物的用途。与西部火山区湖泊相比,盖尔火山口的含粘土矿物的湖泊泥岩仅表现出玄武岩碎屑物质的适度化学风化,并且很少含有可通过XRD检测到的碳酸盐矿物。这些观测结果突出了古代火星上风化状态和风化层矿物学的显著差异,这可能与湖泊集水区地貌、气候、大气二氧化碳含量以及火星上没有生物过程有关。
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来源期刊
American Journal of Science
American Journal of Science 地学-地球科学综合
CiteScore
5.80
自引率
3.40%
发文量
17
审稿时长
>12 weeks
期刊介绍: The American Journal of Science (AJS), founded in 1818 by Benjamin Silliman, is the oldest scientific journal in the United States that has been published continuously. The Journal is devoted to geology and related sciences and publishes articles from around the world presenting results of major research from all earth sciences. Readers are primarily earth scientists in academia and government institutions.
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