Follow the serpentine as a comprehensive diagnostic for extraterrestrial habitability

IF 12.9 1区物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS

Nature Astronomy Pub Date : 2024-09-27 DOI:10.1038/s41550-024-02373-x

Jianxun Shen, Chuanzhou Liu, Yongxin Pan, Wei Lin

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Abstract

One of the main goals of most ongoing and future space exploration missions is to search for habitable conditions and potential signs of extraterrestrial life on Solar System bodies. Space Agencies have usually implemented this by ‘following’ a specific diagnostic that has an important role in life, with ‘following the water’ being the most famous — but by no means the only — indication. However, the use of only one life-essential element has limitations. Here we propose to follow the serpentine as a way to integrate multiple aspects of habitable conditions as we know them, given that the presence of serpentine implies a water supply, organic molecules, bioavailable essential elements, energy sources, greenhouse gases and preservable environments. Serpentine minerals are associated with the complex process called serpentinization, a subtype of water–rock interactions. Serpentinization and its products are therefore likely to provide insights into where to find potential life-inhabited niches on celestial bodies such as Mars and icy moons. Serpentinization — the metamorphism of rocks involving large amounts of water — includes many different aspects linked to habitability and offers a more reliable indicator of habitable conditions in the Solar System than a single diagnostic, such as water.

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将蛇纹石作为地外宜居性的综合诊断工具

目前和未来大多数太空探索任务的主要目标之一是在太阳系天体上寻找宜居条件和潜在的地外生命迹象。航天局通常通过 "跟踪 "对生命有重要作用的特定诊断来实现这一目标，"跟踪水 "是最著名的迹象，但绝不是唯一的迹象。然而，只使用一种生命基本要素有其局限性。鉴于蛇纹石的存在意味着水的供应、有机分子、生物可利用的基本元素、能源、温室气体和可保存的环境，我们在此建议将蛇纹石作为一种整合我们所知的宜居条件多个方面的方法。蛇纹石矿物与被称为蛇纹石化的复杂过程有关，蛇纹石化是水与岩石相互作用的一个子类型。因此，蛇纹石化及其产物有可能为在火星和冰卫星等天体上寻找潜在的生命栖息地提供启示。

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来源期刊

Nature Astronomy Physics and Astronomy-Astronomy and Astrophysics

CiteScore

19.50

自引率

2.80%

发文量

252

期刊介绍： Nature Astronomy, the oldest science, has played a significant role in the history of Nature. Throughout the years, pioneering discoveries such as the first quasar, exoplanet, and understanding of spiral nebulae have been reported in the journal. With the introduction of Nature Astronomy, the field now receives expanded coverage, welcoming research in astronomy, astrophysics, and planetary science. The primary objective is to encourage closer collaboration among researchers in these related areas. Similar to other journals under the Nature brand, Nature Astronomy boasts a devoted team of professional editors, ensuring fairness and rigorous peer-review processes. The journal maintains high standards in copy-editing and production, ensuring timely publication and editorial independence. In addition to original research, Nature Astronomy publishes a wide range of content, including Comments, Reviews, News and Views, Features, and Correspondence. This diverse collection covers various disciplines within astronomy and includes contributions from a diverse range of voices.