Characterizing Hydrated Sulfates and Altered Phases in Jezero Crater Fan and Floor Geologic Units With SHERLOC on Mars 2020

IF 3.9 1区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS Journal of Geophysical Research: Planets Pub Date : 2024-07-20 DOI:10.1029/2023JE008251
Yu Yu Phua, Bethany L. Ehlmann, Sandra Siljeström, Andrew D. Czaja, Pierre Beck, Stephanie Connell, Roger C. Wiens, Ryan S. Jakubek, Rebecca M. E. Williams, Maria-Paz Zorzano, Michelle E. Minitti, Alyssa C. Pascuzzo, Kevin P. Hand, Rohit Bhartia, Linda C. Kah, Lucia Mandon, Joseph Razzell Hollis, Eva L. Scheller, Sunanda Sharma, Andrew Steele, Kyle Uckert, Kenneth H. Williford, Anastasia G. Yanchilina
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Abstract

The Mars 2020 Perseverance rover has explored fluvio-lacustrine sedimentary rocks within Jezero crater. Prior work showed that igneous crater floor Séítah and Máaz formations have mafic mineralogy with alteration phases that indicate multiple episodes of aqueous alteration. In this work, we extend the analyses of hydration to targets in the Jezero western fan delta, using data from the SHERLOC (Scanning Habitable Environments with Raman and Luminescence for Organics and Chemicals) Raman spectrometer. Spectral features, for example, sulfate and hydration peak positions and shapes, vary within, and across the crater floor and western fan. The proportion of targets with hydration associated with sulfates was approximately equal in the crater floor and the western fan. All hydrated targets in the crater floor and upper fan showed bimodal hydration peaks at ∼3,200 and ∼3,400 cm−1. The sulfate symmetric stretch at ∼1,000 cm−1 coupled with a hydration peak at ∼3,400 cm−1 indicate that MgSO4·nH2O (2 < n ≤ 5) is a likely hydration carrier phase in all units, perhaps paired with low-hydration (n ≤ 1) amorphous Mg-sulfates, indicated by the ∼3,200 cm−1 peak. Low-hydration MgSO4·nH2O (n = 1–2) are more prevalent in the fan, and hydrated targets in the fan front only had one peak at ∼3,400 cm−1. While anhydrite co-occurs with hydrated Mg-sulfates in the crater floor and fan front, hydrated Ca-sulfates are observed instead at the top of the upper fan. Collectively, the data imply aqueous deposition of sediments with formation of salts from high ionic strength fluids and subsequent aridity to preserve the observed hydration states.

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利用 2020 年火星上的 SHERLOC 确定杰泽罗火山口扇形和底层地质单元中的水合硫酸盐和蜕变相的特征
火星2020 "毅力 "号探测器探索了杰泽罗陨石坑内的河流-湖泊沉积岩。之前的工作表明,火成岩陨石坑底部的塞伊塔和马兹地层具有黑云母矿物学,其蚀变相表明发生过多次水蚀变。在这项工作中,我们利用 SHERLOC(利用拉曼和发光扫描可居住环境中的有机物和化学品)拉曼光谱仪的数据,将水化分析扩展到杰泽罗西部扇三角洲的目标。光谱特征,例如硫酸盐和水合峰的位置和形状,在陨石坑底部和西部扇形区内和之间各不相同。在陨石坑底部和西部扇区,与硫酸盐相关的水合目标比例大致相同。陨石坑底部和上扇区的所有水合目标都在∼3,200 和∼3,400 cm-1 处显示出双峰水合峰。1,000 cm-1 处的硫酸盐对称伸展与 3,400 cm-1 处的水合峰相结合,表明 MgSO4-nH2O (2 < n ≤ 5) 可能是所有单元中的水合载体相,也许与 3,200 cm-1 峰所示的低水合(n ≤ 1)无定形硫酸镁配对。低水合度 MgSO4-nH2O (n = 1-2)在扇形区更为普遍,扇形区前沿的水合目标只有一个 ∼3,400 cm-1 的峰值。在陨石坑底部和扇面前部,无水物与水合硫酸镁同时存在,而在上扇面顶部则观察到水合硫酸钙。总之,这些数据意味着沉积物在水沉积过程中形成了高离子强度的盐类流体,而随后的干旱则保持了所观察到的水合状态。
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来源期刊
Journal of Geophysical Research: Planets
Journal of Geophysical Research: Planets Earth and Planetary Sciences-Earth and Planetary Sciences (miscellaneous)
CiteScore
8.00
自引率
27.10%
发文量
254
期刊介绍: The Journal of Geophysical Research Planets is dedicated to the publication of new and original research in the broad field of planetary science. Manuscripts concerning planetary geology, geophysics, geochemistry, atmospheres, and dynamics are appropriate for the journal when they increase knowledge about the processes that affect Solar System objects. Manuscripts concerning other planetary systems, exoplanets or Earth are welcome when presented in a comparative planetology perspective. Studies in the field of astrobiology will be considered when they have immediate consequences for the interpretation of planetary data. JGR: Planets does not publish manuscripts that deal with future missions and instrumentation, nor those that are primarily of an engineering interest. Instrument, calibration or data processing papers may be appropriate for the journal, but only when accompanied by scientific analysis and interpretation that increases understanding of the studied object. A manuscript that describes a new method or technique would be acceptable for JGR: Planets if it contained new and relevant scientific results obtained using the method. Review articles are generally not appropriate for JGR: Planets, but they may be considered if they form an integral part of a special issue.
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