The key role of bedrock composition in the formation of carbonates on Mars

IF 3.4 1区地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS

Geochemical Perspectives Letters Pub Date : 2024-01-25 DOI:10.7185/geochemlet.2403

C. Gil-Lozano, F. Baron, A. Gaudin, J.-P. Lorand, V. Fernandez, J. Hamon, N. Mangold

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Abstract

Martian carbonates are fundamental minerals for understanding the geochemical and climatic evolution of the planet and the search for potential life, representing one of the key objectives for the Perseverance rover at Jezero Crater. However, the scarcity of carbonate reservoirs on the surface compared to the extent of terrestrial carbonates questions whether these carbonates are indicators of past surface conditions or products from deeper processes unrelated to martian climate. We investigate the formation of carbonates by surface weathering under a CO₂ atmosphere in a suite of individual minerals and martian simulants based on the early Mars crust composition. We identify the formation of magnesium carbonates in olivine-bearing samples, but not in the early martian crust simulants. These findings are consistent with the association of carbonates with olivine-rich substrate detected on Mars and highlight the role of the substratum composition in the distribution of carbonates formed by surface processes. Hence, we conclude that the limited surface reservoirs of carbonate are reconcilable with the existence of a CO₂-rich atmosphere on early Mars.

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基岩成分在火星碳酸盐形成过程中的关键作用

火星碳酸盐是了解火星地球化学和气候演变以及寻找潜在生命的基本矿物，也是杰泽罗环形山毅力号探测器的主要目标之一。然而，与陆地碳酸盐的分布范围相比，地表碳酸盐储层很少，这就令人怀疑这些碳酸盐是过去地表条件的指标，还是与火星气候无关的深层过程的产物。我们以早期火星地壳成分为基础，研究了在二氧化碳大气下，地表风化在一系列单个矿物和火星模拟物中形成碳酸盐的过程。我们在含橄榄石的样品中发现了镁碳酸盐的形成，但在早期火星地壳模拟物中没有发现。这些发现与在火星上探测到的碳酸盐与富含橄榄石的基质的联系是一致的，并突出了基质成分在地表过程形成的碳酸盐分布中的作用。因此，我们得出结论，有限的碳酸盐表面储层与火星早期存在富含二氧化碳的大气层是一致的。

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

Geochemical Perspectives Letters Earth and Planetary Sciences-Geochemistry and Petrology

CiteScore

7.00

自引率

2.00%

发文量

审稿时长

15 weeks

期刊介绍： Geochemical Perspectives Letters is an open access, internationally peer-reviewed journal of the European Association of Geochemistry (EAG) that publishes short, highest-quality articles spanning geochemical sciences. The journal aims at rapid publication of the most novel research in geochemistry with a focus on outstanding quality, international importance, originality, and stimulating new developments across the vast array of geochemical disciplines.