An updated constraint on the local stratigraphy at the Chang'E-4 landing site

IF 2.9 3区 地球科学 Earth and Planetary Physics Pub Date : 2021-03-29 DOI:10.26464/epp2021007
YiRen Chang, ZhiYong Xiao, YiChen Wang, ChunYu Ding, Jun Cui, YuZhen Cai
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引用次数: 6

Abstract

The Chang’E-4 mission has been exploring the lunar farside. Two scientific targets of the rover onboard are (1) resolving the possible mineralogy related to the South Pole-Aitken basin and (2) understanding the subsurface processes at the lunar farside. Publications to date that are based on the reflectance spectra and radar data obtained by the rover have shown a persistent inconsistency about the local stratigraphy. To explain both the abnormal surface topography at the landing site and the unexpected radargram observed by the rover, the Alder crater has been frequently reported to be older than the mare basalts at that landing site. However, this argument is not supported by earlier geological mapping nor recent crater statistics. Resolving this controversy is critical for a full understanding of the geological history of the landing area and for correct interpretations of the scientific data returned. Employing detailed crater statistics, rigorous statistical analyses, and an updated crater chronology function, this study is determined to resolve the relative ages of the Alder crater, Finsen crater, and the mare basalts on the floor of Von Kármán. Our results reveal that while background secondaries and local resurfacing have widely occurred in the study area, affecting age determinations, the statistics are significant enough to conclude that the Alder crater is the oldest among the three targets. This independent constraint is consistent with both the crosscutting relationships of different terrains in this area and global stratigraphic mapping. Our results exclude Alder as a possible contributor of the post-mare deposits at the landing site, appealing for a more systematic stratigraphy study to resolve the provenances of these deposits.

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“嫦娥四号”着陆点局部地层约束的更新
嫦娥四号任务一直在探索月球背面。月球车的两个科学目标是:(1)解决与南极-艾特肯盆地相关的可能矿物学问题;(2)了解月球背面的地下过程。迄今为止,基于漫游者获得的反射光谱和雷达数据的出版物表明,当地地层一直不一致。为了解释着陆点异常的表面地形和探测器观察到的意外雷达图,奥尔德陨石坑经常被报道为比着陆点的海玄武岩更古老。然而,这一论点并没有得到早期地质测绘和最近陨石坑统计数据的支持。解决这一争议对于全面了解着陆点的地质历史和正确解释返回的科学数据至关重要。通过详细的陨石坑统计、严格的统计分析和更新的陨石坑年代学功能,本研究确定了Alder陨石坑、Finsen陨石坑和Von Kármán地面上的海玄武岩的相对年龄。我们的研究结果表明,虽然研究区域广泛发生背景次生作用和局部重铺,影响了年龄的确定,但统计数据足够显著,可以得出Alder陨石坑是三个目标中最古老的结论。这种独立的约束与该地区不同地形的横切关系和全球地层填图是一致的。我们的研究结果排除了奥尔德作为登陆地点海后沉积物的可能贡献者,呼吁进行更系统的地层学研究来解决这些沉积物的来源。
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Earth and Planetary Physics
Earth and Planetary Physics GEOSCIENCES, MULTIDISCIPLINARY-
自引率
17.20%
发文量
174
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