Biosignatures Preserved in Carbonate Nodules from the Western Qaidam Basin, NW China: Implications for Life Detection on Mars.

IF 3.5 3区 物理与天体物理 Q2 ASTRONOMY & ASTROPHYSICS Astrobiology Pub Date : 2023-02-01 DOI:10.1089/ast.2021.0196
Yan Chen, Yu Sun, Li Liu, Jianxun Shen, Yuangao Qu, Yongxin Pan, Wei Lin
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引用次数: 6

Abstract

The search for organic matter on Mars is one of the major objectives of Mars exploration. However, limited detection of organic signals by Mars rovers to date demands further investigation on this topic. The Curiosity rover recently discovered numerous nodules in Gale Crater on Mars. These nodules have been considered to precipitate in the neutral-to-alkaline and saline diagenetic fluids and could be beneficial for organic preservation. Here, we examine this possibility by studying the carbonate nodules in the western Qaidam Basin, NW China, one of the terrestrial analog sites for Mars. Fourier transform infrared spectra of the carbonate nodules reveal that the aliphatic and aromatic molecules can be readily preserved inside nodules in Mars-like environments. The chain-branching index of the Qaidam nodules suggests that the diagenetic fluids where nodules precipitated were able to support diverse microbial communities that could vary with the water salinity. Findings of this study provide new perspectives on the astrobiological significance of nodules in Gale Crater and the further detection of organic matter on Mars.

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柴达木盆地西部碳酸盐结核中保存的生物特征及其对火星生命探测的意义。
在火星上寻找有机物是火星探测的主要目标之一。然而,迄今为止,火星漫游者探测到的有机信号有限,需要对这一主题进行进一步的研究。好奇号火星车最近在火星上的盖尔环形山发现了许多结核。这些结核被认为在中碱性和盐水成岩流体中沉淀,可能有利于有机保存。本文以柴达木盆地西部的碳酸盐岩结核为研究对象,探讨了这种可能性。碳酸盐结核的傅里叶变换红外光谱显示,在类似火星的环境中,脂肪族和芳香族分子可以很容易地保存在结核中。柴达木结核的链支指数表明,结核沉积的成岩流体能够支持多种微生物群落,这些微生物群落随水体盐度的变化而变化。本研究的发现为盖尔陨石坑中结核的天体生物学意义以及进一步探测火星上的有机物提供了新的视角。
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来源期刊
Astrobiology
Astrobiology 生物-地球科学综合
CiteScore
7.70
自引率
11.90%
发文量
100
审稿时长
3 months
期刊介绍: Astrobiology is the most-cited peer-reviewed journal dedicated to the understanding of life''s origin, evolution, and distribution in the universe, with a focus on new findings and discoveries from interplanetary exploration and laboratory research. Astrobiology coverage includes: Astrophysics; Astropaleontology; Astroplanets; Bioastronomy; Cosmochemistry; Ecogenomics; Exobiology; Extremophiles; Geomicrobiology; Gravitational biology; Life detection technology; Meteoritics; Planetary geoscience; Planetary protection; Prebiotic chemistry; Space exploration technology; Terraforming
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