火星和太阳系探测任务中探测地外生命方法的比较研究II:探测、探测和分析的目标特征、探测技术及其组合。

IF 3.5 3区 物理与天体物理 Q2 ASTRONOMY & ASTROPHYSICS
Astrobiology Pub Date : 2023-10-01 Epub Date: 2023-09-28 DOI:10.1089/ast.2022.0148
Keigo Enya, Akihiko Yamagishi, Kensei Kobayashi, Yoshitaka Yoshimura, Elizabeth J Tasker
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引用次数: 0

摘要

我们对寻找地外微生物生命的方法进行了比较研究,包括一个汇总表,其中可以很容易地比较不同的生命探测技术,以帮助设计旨在进行生命探测的任务和仪器。这是之前研究的延伸,在之前的研究中,对一系列目标特征和分子的检测技术进行了评估,这些特征和分子可以构成积极的生命检测。这种比较已经扩展到特别考虑假阳性的来源、阴性检测的原因、关于陆地生命的检测技术的结果,以及在检测生命的主要目标之外可以实现的其他科学目标。这些补充涉及探索任务设计的科学和方案方面,在这方面,成功的提案必须证明可能的结果,并且即使没有发现生命,也能够返回有价值的结果。生命探测技术的适用性被考虑用于地球生命、地球独立生命(独立于地球上生命出现的生命)和地球亲属生命(与地球上的生命共享共同祖先),有效探测地球生命的技术也应用于探测地球亲属生命。然而,它们的适用性并不能保证适用于独立于地球的生命。正如我们之前的研究所发现的那样,没有一种现实的单一探测方法可以最终确定地外生命的发现,也没有一种方法优于所有其他方法。在这项研究中,我们进一步考虑了检测技术的组合,并将成像确定为分子检测方法的一个有价值的补充,即使在分辨率不足以观察微生物细胞详细形态的情况下也是如此。对地外生命的搜寻进一步分为调查、探测、分析和结论步骤。这些步骤得益于不同的检测技术,但成像对两个部分都是必要的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

A Comparative Study of Methods for Detecting Extraterrestrial Life in Exploration Missions to Mars and the Solar System II: Targeted Characteristics, Detection Techniques, and Their Combination for Survey, Detection, and Analysis.

A Comparative Study of Methods for Detecting Extraterrestrial Life in Exploration Missions to Mars and the Solar System II: Targeted Characteristics, Detection Techniques, and Their Combination for Survey, Detection, and Analysis.

A Comparative Study of Methods for Detecting Extraterrestrial Life in Exploration Missions to Mars and the Solar System II: Targeted Characteristics, Detection Techniques, and Their Combination for Survey, Detection, and Analysis.

A Comparative Study of Methods for Detecting Extraterrestrial Life in Exploration Missions to Mars and the Solar System II: Targeted Characteristics, Detection Techniques, and Their Combination for Survey, Detection, and Analysis.

We present a comparative study of the methods used in the search for extraterrestrial microorganism life, including a summary table where different life-detection techniques can be easily compared as an aid to mission and instrument design aimed at life detection. This is an extension of previous study, where detection techniques for a series of target characteristics and molecules that could constitute a positive life detection were evaluated. This comparison has been extended with a particular consideration to sources of false positives, the causes of negative detection, the results of detection techniques when presented regarding terrestrial life, and additional science objectives that could be achieved outside the primary aim of detecting life. These additions address both the scientific and programmatic side of exploration mission design, where a successful proposal must demonstrate probable outcomes and be able to return valuable results even if no life is found. The applicability of the life detection techniques is considered for Earth life, Earth-independent life (life emerging independently from that on Earth,) and Earth-kin life (sharing a common ancestor with life on Earth), and techniques effective in detecting Earth life should also be useful in the detection of Earth-kin life. However, their applicability is not guaranteed for Earth-independent life. As found in our previous study, there exists no realistic single detection method that can conclusively determine the discovery of extraterrestrial life, and no method is superior to all others. In this study, we further consider combinations of detection techniques and identify imaging as a valuable addition to molecule detection methods, even in cases where there is insufficient resolution to observe the detailed morphology of a microbial cell. The search for extraterrestrial life is further divided into a survey-and-detection and analysis-and-conclusion step. These steps benefit from different detection techniques, but imaging is necessary for both parts.

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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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