A new shergottite martian meteorite analog system (SAS) for alteration experiments

IF 1.8 4区 物理与天体物理 Q3 ASTRONOMY & ASTROPHYSICS Planetary and Space Science Pub Date : 2023-10-15 DOI:10.1016/j.pss.2023.105749
V. Fortier , V. Debaille , V. Dehant , B. Bultel
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Abstract

Martian rocky material available on Earth has been so far composed of meteorites and is limited in terms of mass and number. This restricted amount directly impairs the possibility to perform destructive analyses and experiments requiring large mass of sample, such as alteration and hydrothermal experiments. One of the main intents of the current Mars Sample Return (MSR) mission is to bring rock samples from Mars to Earth in the next 10 years. While we will have a geological context for the samples, the total mass that will be collected will also be limited. It is thus crucial to seek analogs of martian rocks, not suffering from this limitation while bearing specific martian properties required by the planned experiments.

To overcome this problem in the frame of alteration and hydrothermal experiments, we have built a flexible powder analog system to mimic a typical non-altered shergottite from a chemical and mineralogical perspective. To do so, we have selected the six main mineral phases in weight percentage present in shergottites. For each phase we selected multiple pure terrestrial mineral powders chosen for their chemistry close to their shergottite counterparts. As these mineral phases come from only three different relatively easy access locations, the assemblage is virtually unlimited.

From the Shergottite Analog System (SAS), the Shergottite Sample Powder (SSP)-1 analog has been created to focus on serpentinization and abiotic methane formation experiments under martian conditions. The SAS could also be used to create analogs of Oxia Planum, Gale Crater, or Jezero Crater, and to test possible detection interferences and to determine the sensitivity of multiple analytic techniques by varying the selected phases and their proportions.

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一种新的用于蚀变实验的蛇床矿-火星陨石模拟系统(SAS)
到目前为止,地球上可用的火星岩石物质都是由陨石组成的,在质量和数量上都是有限的。这种有限的数量直接损害了进行破坏性分析和需要大量样品的实验的可能性,例如蚀变和热液实验。当前火星样本返回(MSR)任务的主要目的之一是在未来10年内将火星的岩石样本带回地球。虽然我们将有一个地质背景的样本,总质量将收集也将是有限的。因此,寻找火星岩石的类似物是至关重要的,既不受这种限制,又能满足计划中的实验所需的特定火星特性。为了在蚀变和热液实验的框架下克服这一问题,我们建立了一个灵活的粉末模拟系统,从化学和矿物学的角度模拟了一个典型的未蚀变的辉长岩。为了做到这一点,我们选择了六种主要矿物相的重量百分比存在于shergotetes。对于每个相,我们选择了多种纯净的陆地矿物粉末,因为它们的化学性质接近于它们的辉高岩对应物。由于这些矿物阶段只来自三个不同的相对容易进入的位置,因此组合实际上是无限的。从shergotite Analog System (SAS), shergotite Sample Powder (SSP)-1模拟物被创造出来,专注于火星条件下的蛇纹岩化和非生物甲烷形成实验。SAS也可以用来创建类似的氧平原,盖尔陨石坑,或耶泽罗陨石坑,并测试可能的检测干扰,并通过改变所选择的相和它们的比例来确定多种分析技术的灵敏度。
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来源期刊
Planetary and Space Science
Planetary and Space Science 地学天文-天文与天体物理
CiteScore
5.40
自引率
4.20%
发文量
126
审稿时长
15 weeks
期刊介绍: Planetary and Space Science publishes original articles as well as short communications (letters). Ground-based and space-borne instrumentation and laboratory simulation of solar system processes are included. The following fields of planetary and solar system research are covered: • Celestial mechanics, including dynamical evolution of the solar system, gravitational captures and resonances, relativistic effects, tracking and dynamics • Cosmochemistry and origin, including all aspects of the formation and initial physical and chemical evolution of the solar system • Terrestrial planets and satellites, including the physics of the interiors, geology and morphology of the surfaces, tectonics, mineralogy and dating • Outer planets and satellites, including formation and evolution, remote sensing at all wavelengths and in situ measurements • Planetary atmospheres, including formation and evolution, circulation and meteorology, boundary layers, remote sensing and laboratory simulation • Planetary magnetospheres and ionospheres, including origin of magnetic fields, magnetospheric plasma and radiation belts, and their interaction with the sun, the solar wind and satellites • Small bodies, dust and rings, including asteroids, comets and zodiacal light and their interaction with the solar radiation and the solar wind • Exobiology, including origin of life, detection of planetary ecosystems and pre-biological phenomena in the solar system and laboratory simulations • Extrasolar systems, including the detection and/or the detectability of exoplanets and planetary systems, their formation and evolution, the physical and chemical properties of the exoplanets • History of planetary and space research
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