The lunar Gruithuisen silicic extrusive domes: Topographic configuration, morphology, ages, and internal structure

•Gruithuisen domes are large occurrences of non-basaltic volcanism on the Moon.•Volumes of the domes vary from ∼20 km3 to ∼470 km3.•The absolute model age of the domes is about 3.8 Ga.•The formation of the domes is consistent with remelting of silica-rich crustal material. The Gruithuisen domes, sit...

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Bibliographic Details
Published in:Icarus (New York, N.Y. 1962) N.Y. 1962), 2016-07, Vol.273, p.262-283
Main Authors: Ivanov, M.A., Head, J.W., Bystrov, A.
Format: Article
Language:English
Subjects:
Age
Basins
Craters
Deltas
Domes
Lava
Melting
Moon
Moon, surface
Remelting
Volcanism
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Summary:•Gruithuisen domes are large occurrences of non-basaltic volcanism on the Moon.•Volumes of the domes vary from ∼20 km3 to ∼470 km3.•The absolute model age of the domes is about 3.8 Ga.•The formation of the domes is consistent with remelting of silica-rich crustal material. The Gruithuisen domes, situated on the western portion of the Imbrium basin rim, form three tall mountains (NW, Gamma, Delta) totaling ∼780km3 in volume. The shapes of the domes are significantly different from that of mare-type domes elsewhere on the Moon. We use data from the Lunar Reconnaissance Orbiter (LRO) and Kaguya missions (LRO Lunar Orbiter Laser Altimeter, Lunar Reconnaissance Orbiter Camera, Diviner, and the Kaguya imager) to characterize the domes and assess models for their origin. The configuration of the domes (steep slopes, up to ∼18–20°) and their specific remote sensing characteristics (strong downturn in the UV, and results from the M3 and Diviner instruments) suggest that the domes formed by eruptions of highly viscous lava. The estimated surface volumes of the domes vary from ∼20km3 (NW dome) to ∼290km3 (Gamma dome) to ∼470km3 (Delta dome). The domes occur on the portion of the Imbrium basin rim that is overlain by ejecta from the post-Imbrium Iridum crater. In some areas, relatively high albedo smooth volcanic plains are seen within the Iridum ejecta near the Gruithuisen domes, and low albedo mare deposits surround and embay the domes and Iridum crater. Dating of different units and features by crater counts indicates that impact melts from the Iridum basin are ∼3.9Ga old, the domes Gamma and Delta are ∼3.8Ga, and the ages of the plains near the domes vary from ∼2.3 to ∼3.6Ga. A fresh impact crater exposes the internal structure of the Gamma dome. The most prominent features on the wall of the crater are rough, blocky layers that are typical of volcanic plains in the highlands and maria around the domes. The layers are interleaved with fine-grained materials of higher and lower albedo and the visible orientation of the layers changes over short (a few hundred meters) distances. These characteristics of the internal structure of the dome are consistent with eruptions of high viscosity lava (rough layers) that alternated with possible explosive activity (fine-grained materials). The spatial association of the Gruithuisen domes with the highland lava plains resembles the situation in which bimodal volcanism occur on Earth. The terrestrial association can be due to eit
ISSN:0019-1035
1090-2643
DOI:10.1016/j.icarus.2015.12.015