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- Title
A metallogenic model for the supergiant gold system in Jiaodong province: Constraints from crustal velocity structure.
- Authors
Hou, Jue; Xu, Tao; Ai, Yinshuang; Yu, Guiping; Yang, Yingjie; Xu, Bo; Wang, Qingfei
- Abstract
We investigate the role of crustal architectures playing in controlling the genesis and nature of supergiant Jiaodong orogenic gold system via seismic imaging. We deployed an NWW-SEE-trending broadband seismic linear array traversing the province to construct a shear wave velocity (VS) transect based on ambient noise tomography. Our crustal VS transect reveals a prominent low velocity zone (LVZ) at 12–20 km depths across the whole province and high VS anomalies at 8–12 km depths underneath the western part that hosts most of the ore tonnage. We interpret the former as a hydrothermal alteration zone related to mineralization and the latter as a crustal component containing large amounts of mafic rocks (e.g., amphibolites). In addition, a listric fault system and a strike-slip fault system are imaged in the western and eastern parts of the province, respectively. Combining features of crustal velocities with regional geological observations that ores are tempo-spatially associated with mafic dikes, we propose a model of gold metallogenic processes. In this model, ponding and degassing of the mafic magmas led to the formation of a hydrothermal alteration LVZ in the middle crust prior to mineralization. Later, auriferous fluid was released from this intra-crustal hydrothermal alteration zone as it was heated by upwelling asthenosphere. The ore fluid ascending along the listric fault system possibly leached extra gold from the upper-crustal amphibolites. Then, the gold-rich fluid migrated up along different fault systems, leading to the disseminated-veinlet mineralization with great gold endowment in the western listric fault system and the quartz-vein type mineralization with relatively small ore tonnage in the eastern strike-slip fault system.
- Subjects
SURFACE waves (Seismic waves); HYDROTHERMAL alteration; MAFIC rocks; VELOCITY; GOLD; IMAGING systems in seismology
- Publication
SCIENCE CHINA Earth Sciences, 2023, Vol 66, Issue 12, p2898
- ISSN
1674-7313
- Publication type
Article
- DOI
10.1007/s11430-023-1173-6