Mineralization based on CSAMT data: A case study on the Gaoloushan section of Yangshan gold belt

Yongling Chen, Hu Yang, Chun Zhan, Wei Zhang, Jia Wang, Dan Xie, Wei Wei, Ciren Lamu
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Abstract

Yangshan gold belt (YSGB) in Gansu Province is a super‐large orogenic gold deposit located in the middle section of the Mianxian‐Lueyang arcuate suture zone (Mian‐Lue suture zone). The YSGB is mainly divided into the Gejiaowan, Anba, and Gaoloushan mine sections. The ore veins are strictly controlled by strong strain zones in the fracture zone and secondary fractures superimposed on the inherited activity and are vein‐like in general and lenticular in localities. For a long time, there have been different understandings regarding its ore‐controlling factors and mineral genesis. By utilizing controlled‐source audio‐frequency magnetotellurics (CSAMT) technology to conduct electrical characteristic studies, the deep electrical structural characteristics of the Gaoloushan section are identified, and a tectonically‐controlled geoelectric model of the deposit is established, which provides geophysical evidence for the view that the Yangshan gold mine is a tectonically‐controlled low‐temperature hydrothermal deposit in altered rock, guiding the arrangement of exploration work and identifying prospective mining areas, and thereby providing a geophysical exploration paradigm for deep exploration of large orogenic gold deposits.
基于 CSAMT 数据的成矿作用:阳山金矿带高楼山矿段案例研究
甘肃省阳山金矿带(YSGB)是位于勉县-略阳弧形缝合带(勉略缝合带)中段的超大型造山型金矿床。YSGB主要分为葛家湾矿段、安坝矿段和高楼山矿段。矿脉严格受控于断裂带强应变带和继承活动叠加的次级断裂,总体呈脉状,局部呈透镜状。长期以来,人们对其控矿因素和矿物成因有不同的认识。通过利用受控声源声频磁法(CSAMT)技术进行电特性研究,确定了高楼山矿段的深部电结构特征,并建立了该矿床的构造控制地质电模型、这为阳山金矿是构造控制的蚀变岩低温热液矿床的观点提供了地球物理证据,指导了勘探工作的安排,确定了远景区,从而为大型造山型金矿床的深部勘探提供了地球物理勘探范式。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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