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Deep-UV Raman Spectroscopy of Carbonaceous Precambrian Microfossils: Insights into the Search for Past Life on Mars

前寒武纪 火星探测计划 拉曼光谱 地质学 火星上的生命 天体生物学 沉积岩 早期地球 火星人 古生物学 成熟度(心理) 地质记录 成岩作用 物理 光学 发展心理学 心理学
作者
Jeffrey T. Osterhout,J. William Schopf,Anatoliy B. Kudryavtsev,Andrew D. Czaja,Kenneth H. Williford
出处
期刊:Astrobiology [Mary Ann Liebert, Inc.]
卷期号:22 (10): 1239-1254 被引量:4
标识
DOI:10.1089/ast.2021.0135
摘要

The current strategy for detecting evidence of ancient life on Mars—a primary goal of NASA's ongoing Mars 2020 mission—is based largely on knowledge of Precambrian life and of its preservation in Earth's early rock record. The fossil record of primitive microorganisms consists mainly of stromatolites and other microbially influenced sedimentary structures, which occasionally preserve microfossils or other geochemical traces of life. Raman spectroscopy is an invaluable tool for identifying such signs of life and is routinely performed on Precambrian microfossils to help establish their organic composition, degree of thermal maturity, and biogenicity. The Mars 2020 rover, Perseverance, is equipped with a deep-ultraviolet (UV) Raman spectrometer as part of the SHERLOC (Scanning Habitable Environments with Raman and Luminescence for Organics and Chemicals) instrument, which will be used in part to characterize the preservation of organic matter in the ancient sedimentary rocks of Jezero crater and therein search for possible biosignatures. To determine the deep-UV Raman spectra characteristic of ancient microbial fossils, this study analyzes individual microfossils from 14 Precambrian cherts using deep-UV (244 nm) Raman spectroscopy. Spectra obtained were measured and calibrated relative to a graphitic standard and categorized according to the morphology and depositional environment of the fossil analyzed and its Raman-indicated thermal maturity. All acquired spectra of the fossil kerogens include a considerably Raman-enhanced and prominent first-order Raman G-band (∼1600 cm−1), whereas its commonly associated D-band (∼1350 cm−1) is restricted to specimens of lower thermal maturity (below greenschist facies) that thus have the less altered biosignature indicative of relatively well-preserved organic matter. If comparably preserved, similar characteristics would be expected to be exhibited by microfossils or ancient organic matter in rock samples collected and cached on Mars in preparation for future sample return to Earth.

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