格鲁伊图森地区的扩展硅质火山活动--重新审视月球上格鲁伊图森圆顶的成分和热物理性质

IF 3.8 Q2 ASTRONOMY & ASTROPHYSICS The Planetary Science Journal Pub Date : 2024-06-01 DOI:10.3847/PSJ/ad4352
N. Kumari, T. Glotch, Jean-Pierre Williams, M. Sullivan, Shuai Li, B. Greenhagen, Dany Waller, Tyler Powell, Catherine M. Elder, Benjamin D. Byron, K. Shirley
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引用次数: 0

摘要

数十年来,月球表面红斑的形成机制、范围和成分一直令月球学界感到好奇。我们在附近的高地发现了一个新的圆顶和另一个硅质陨石坑,从而发现格鲁伊图森地区的硅质火山活动超出了三个主要圆顶的范围。我们的观测结果表明,格鲁伊图森穹丘的铁和钛含量较低。它们被周围地区的喷出物所包围,并承载着年轻陨石坑挖掘出的富含二氧化硅的物质,这与之前的研究结果是一致的。我们在伽马穹顶绘制的巨石图显示了较高的巨石数量,表明占卜者岩石丰度图仅对大于 2 米的巨石敏感。德尔塔穹丘坡度平缓,岩石丰度较低,有一个年轻的陨石坑,可以作为一个安全和有科学价值的地点,用于着陆和探索穹丘及附近地区。在与陨石坑相同的区域,穹顶还显示出异常高的 H 参数,表明可能存在火成碎屑物质。尽管德尔塔穹顶南侧存在弱磁场,但我们在穹顶和附近的红土上观测到了高达 200 ppm 的 OH/H2O,这进一步证明了该地区可能存在火成碎屑。这项研究可能有助于美国国家航空航天局未来在该地区执行任务的后勤和科学决策。
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Extended Silicic Volcanism in the Gruithuisen Region—Revisiting the Composition and Thermophysical Properties of Gruithuisen Domes on the Moon
The formation mechanisms, extent, and compositions of red spots on the lunar surface have intrigued the lunar community for decades. By identifying a new dome and another silicic crater in the highlands nearby, we find that the silicic volcanism in the Gruithuisen region extends beyond the three major domes. Our observations indicate that the Gruithuisen domes have low iron and titanium contents. They are enveloped by ejecta from surrounding regions and host silica-rich material excavated by the young craters consistent with previous work. Our boulder maps of the Gamma dome display a high boulder count and indicate that the Diviner rock abundance maps are only sensitive to boulders larger than ∼2 m. The H-parameter values are sensitive to presence of rocks and may be a better indicator of rocks at submeter scales. The Delta dome has gentle slopes, lower rock abundance, and one young crater, and it could serve as a safe and scientifically valuable site for landing and exploration of the domes and nearby region. The dome also displays anomalously high H-parameter in the same region as the crater, indicating the potential presence of pyroclastic materials. We observe up to 200 ppm of OH/H2O on the domes and nearby mare despite the presence of a weak magnetic field to the south of Delta dome, further supporting the potential presence of pyroclastics in the region. This study could potentially aid in logistical and scientific decisions of the future NASA missions in the region.
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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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