地球撞击点作为行星探索的实地类比

IF 2.6 3区 物理与天体物理 Q2 ASTRONOMY & ASTROPHYSICS Frontiers in Astronomy and Space Sciences Pub Date : 2023-10-30 DOI:10.3389/fspas.2023.1186173
Philippe Lambert, Wolf Uwe Reimold
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引用次数: 0

摘要

地面撞击结构为宇航员的实际训练或机器人练习提供了唯一的类似物,为在其他行星表面进行实地工作做准备。撞击结构不仅代表了月球、火星或小行星的主要表面特征,而且对于基本的地球科学表面分析、地下地质研究和分析可能的外星生物证据或未来殖民其他行星体的经济资源地点至关重要。我们评估了11个不同年龄、类型、大小和侵蚀程度的陆地撞击结构,其中大多数已经用于宇航员或地球科学家/学生的训练目的,以确定它们是否适合作为可能的撞击地质训练地点。这种评价是通过一系列(1)实用标准(如进入时间和现场基础设施)和(2)地质标准(如撞击地质、目标地质、撞击坑的各个方面、露头条件和多样性)来实现的。在实用标准方面,里斯、罗彻霍哈特和施泰因海姆得分最高,里斯略占优。萨德伯里和陨石坑的得分相似,但比领先者低得多,弗里德堡介于两者之间。塔莱姆赞和阿拉瓜尼亚就在陨石坑下面。克利尔沃特韦斯特、霍顿和米斯塔斯汀是迄今为止最不合适的。就地质标准而言,分数差异要小得多。加拿大北部的三个构造和斯坦海姆位于记录的最后,但仅比里斯低23%-39%,名列榜首,紧随其后的是阿拉瓜尼亚(仅比里斯低2%)。尽管加拿大北部的遗址在规模和类型上与更年轻、受侵蚀较少的里斯和阿拉瓜哈(更古老、受侵蚀更严重)的构造相比较,但撞击特征和岩性的多样性以及露头情况都不太有利。仅考虑地质特征和岩性因素,Rochechouart得分最高,其次是阿拉瓜尼亚、萨德伯里、弗里德堡和里斯。针对目标,模拟测试实验将Ries和Rochechouart分别置于第一和第二位置。施泰因海姆和弗里德堡分别位居第三和第四,得分几乎相同。加拿大北部的三个城市得分最低。基于它们的可达性、相互之间的相对接近性,以及在陨石坑类型和大小、撞击和目标特征和岩性方面的显著互补性,三个主要结构(Ries-Rochechouart-Steinheim)的组合可能代表了世界上任何地方模拟训练目的的最合适的目标。
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Terrestrial impact sites as field analogs for planetary exploration
Terrestrial impact structures provide the only analogs for hands-on astronaut training or robotic exercises in preparation for fieldwork on other planetary surfaces. Impact structures not only represent the dominant surface features on, inter alia , the Moon, Mars, or asteroids but are also crucial for basic geoscientific surface analysis, subsurface geological studies, and analysis of sites of possible exobiological evidence or economic resources for future colonization of other planetary bodies. We assess 11 terrestrial impact structures of varied age, type, size, and erosion level, the majority of which have already served for astronaut or geoscientist/student training purposes, for their suitability as possible impact geological training sites. This evaluation is achieved through a range of (1) practical criteria (such as access time and site infrastructure) and (2) geological criteria (such as impact geology, target geology, aspects of impact cratering, outcrop conditions, and variety). For the practical criteria, Ries, Rochechouart, and Steinheim score the highest, with a small advantage for Ries. Sudbury and Meteor Crater score similarly, yet much lower than the leaders, with Vredefort in between. Talemzane and Araguainha are just below Meteor Crater. Clearwater West, Haughton, and Mistastin are by far the least suitable ones. Regarding geological criteria, the scores vary much less. The three Northern Canada structures and Steinheim are at the end of the record, yet only 23%–39% below Ries, which comes out as the leader and is closely followed by Araguainha (only 2% below Ries). Although the Northern Canada sites compare in size and type to the younger and less eroded Ries and the Araguainha (older and more eroded) structures, the diversity of impact features and lithologies and the outcrop situation are less favorable. Considering only the geological features and lithologies factors, Rochechouart gets the highest mark, followed by Araguainha, Sudbury, Vredefort, and Ries. In view of the targeted objective, the analog testing experiment places Ries and Rochechouart in the first and second positions, respectively. Steinheim and Vredefort score almost the same in the third and fourth positions, respectively. The three Northern Canada sites score the lowest. Based on their accessibility, relative proximity to each other, and remarkable complementarity in terms of crater type and size, and in terms of impact and target features and lithologies, the combination of the three leading structures (Ries–Rochechouart–Steinheim) may represent the most appropriate target for analog training purposes, from anywhere in the world.
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来源期刊
Frontiers in Astronomy and Space Sciences
Frontiers in Astronomy and Space Sciences ASTRONOMY & ASTROPHYSICS-
CiteScore
3.40
自引率
13.30%
发文量
363
审稿时长
14 weeks
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