The 3‐D Density Structure of the Large Shield Volcanic Structure in the Gardner Region Revealed by a New Gravity Inversion

Chen, Bo; Huang, Qian; Du, Jinsong; Zhang, Shiyu; Liu, Jianxin; Xu, Changyi

doi:10.1029/2024gl108667

Geophysical Research Letters

2024

DOI: 10.1029/2024gl108667

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The 3‐D Density Structure of the Large Shield Volcanic Structure in the Gardner Region Revealed by a New Gravity Inversion

Bo Chen,

Qian Huang,

Jinsong Du

et al.

Abstract: The Gardner region is a well‐known shield volcanic complex on the Moon. Its magma origin and formation mechanism are of significant interest but still enigmatic. To reveal the subsurface structure of this volcanic complex, we propose a new 3‐D inversion method of the gravity field based on the regularizations of the L1 norm of the model and its gradients. The model test indicates that our proposed method can recover the density structures with high resolution. Subsequently, we apply it to the Bouguer gravity d… Show more

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2024

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Magmatic Evolution of the Marius Hills, Rümker Hills, and Gardner Volcanic Complexes on the Moon: Constraints From Topography and Gravity

Yin,

Huang,

Zhang

et al. 2024

JGR Planets

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Marius Hills, Rümker Hills, and Gardner are three prominent volcanic complexes on the lunar nearside characterized by well‐preserved elevated topography, highly concentrated domes/cones, and positive gravity anomalies. Here, we perform a comparative study of the geology and geophysics of these three volcanic complexes using multi‐source remote‐sensing data to better understand the volcanism diversity and magmatic evolution of the lunar nearside. Uniform and precise feature extraction methods are used to explore the morphological and geochemical characteristics of the volcanic complexes and their quasi‐circular small shields (domes/cones). A new generalized approach based on three‐dimensional (3D) gravity forward modeling is utilized to estimate the subsurface magma intrusion volumes. The results are about 2.63–6.65 × 104, 1.48–3.86 × 104, and 2.75–4.22 × 104 km3 for the Marius Hills, Rümker Hills, and Gardner, respectively. Together with their extrusion volumes, Marius Hills has the largest magnitude of magmatic activity and the lowest ratio of intrusive versus extrusive volumes. Taking into account their geological and geophysical diversities, we propose three magma intrusion and extrusion schematic models and suggest that potassium, rare earth elements, and phosphorus (KREEP) may serve as an important driving force for the long‐term and large‐magnitude volcanism in Marius Hills, while the relatively short‐lived and small‐scale volcanism in Rümker Hills and Gardner may not be related to KREEP. Future geochemical studies of basalt samples from the Marius Hills region may provide additional clues to the role of KREEP in lunar nearside volcanism and thermal evolution.

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Magmatic Evolution of the Marius Hills, Rümker Hills, and Gardner Volcanic Complexes on the Moon: Constraints From Topography and Gravity

Yin,

Huang,

Zhang

et al. 2024

JGR Planets

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show abstract

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The 3‐D Density Structure of the Large Shield Volcanic Structure in the Gardner Region Revealed by a New Gravity Inversion

Cited by 1 publication

References 37 publications

Magmatic Evolution of the Marius Hills, Rümker Hills, and Gardner Volcanic Complexes on the Moon: Constraints From Topography and Gravity

Magmatic Evolution of the Marius Hills, Rümker Hills, and Gardner Volcanic Complexes on the Moon: Constraints From Topography and Gravity

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