月球上的 "蜘蛛":从形态学角度看地质新近的碎屑排入地表下空隙的证据

IF 3.8 Q2 ASTRONOMY & ASTROPHYSICS
Mikhail A. Kreslavsky, James W. Head
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引用次数: 0

摘要

在月球上,几米和几十米尺度的表面形态通常是平滑和柔和的,这是由于风化碎屑造成的。只有在碎屑岩较薄或新近受到扰动的地方,才能观察到尖锐、"清晰 "的米级形态特征。这种清晰的形态通常是由不同规模的近期地质陨石撞击造成的。所谓的 "不规则玛雷斑块"(IMPs)是一个突出的例外,它是一种罕见的小地貌,其起源尚有争议。我们在此报告发现了以前未知的、与撞击无关且更为罕见的酥脆的未成熟形态特征(因其中心圆形区域和放射状 "腿 "而被命名为 "蜘蛛")。蜘蛛是数米深的洼地,近径向的滑道向中心打开,形成直径 50-80 米的树枝状雏形。迄今为止发现的所有蜘蛛都成群出现在静止海域的同一区域,紧邻小型 IMPs。我们将蜘蛛解释为,在空洞顶部突然坍塌之后,高能颗粒状流体将碎屑排入地表下浅层空洞的结果。碎屑园化会以百万年的时间尺度迅速摧毁蜘蛛的腿。如果进入地表下空隙的入口没有堵塞,蜘蛛似乎会进化成一个凹坑;否则,它就会进化成一个平缓的凹陷,最后消失。我们对蜘蛛的解释为它们的所有特征、出现环境和关联提供了一致的解释。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
“Spiders” on the Moon: Morphological Evidence for Geologically Recent Regolith Drainage into Subsurface Voids
On the Moon, the surface morphology at the scale of meters and tens of meters is typically smooth and subdued due to regolith gardening. Sharp, “crisp,” meter-scale morphologic features are observed only where the regolith is either thin or recently disturbed. Such crisp morphologies are typically created by geologically recent meteoritic impacts of different scales. The prominent exception is so-called irregular mare patches (IMPs), rare small features of debated origin. We report here on the discovery of previously unknown crisp immature morphological features (named “spiders” due to their central circular region and radiating “legs”) not related to impacts and even more rare. The spiders are meters-deep depressions with near-radial chutes open toward the center which make an incipient dendritic pattern 50–80 m in diameter. All spiders found thus far occur in clusters in the same region in Mare Tranquillitatis in the immediate proximity to small IMPs. We interpret spiders as the result of an energetic granular flow of the regolith draining into shallow subsurface voids following the sudden collapse of the roofs of the voids. Regolith gardening destroys the spiders’ legs rapidly, on a timescale of a million years. If the entrance into the subsurface void remains unclogged, a spider appears to evolve into a pit; otherwise it evolves into a gentle depression and finally disappears. Our interpretation of spiders provides a consistent explanation of all of their features, occurrence settings, and associations.
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来源期刊
The Planetary Science Journal
The Planetary Science Journal Earth and Planetary Sciences-Geophysics
CiteScore
5.20
自引率
0.00%
发文量
249
审稿时长
15 weeks
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