Wen-xin Fan , Zhi-cheng Lü , Yong-qiang Liu , Lei Chen , Ze-zhong Du , Ling-li Zhou
{"title":"中国胶东半岛招贤金矿床的关键成矿过程和金源:黄铁矿和闪锌矿痕量元素和硫同位素组成的证据","authors":"Wen-xin Fan , Zhi-cheng Lü , Yong-qiang Liu , Lei Chen , Ze-zhong Du , Ling-li Zhou","doi":"10.1016/j.oregeorev.2024.106335","DOIUrl":null,"url":null,"abstract":"<div><div>The Zhaoxian gold deposit, located in the world’s third largest gold area and the largest in China, with a mineralization depth of 1500–2200 m, was the subject of ideal research to unravel gold source and mineralization process. Through comprehensive analyses incorporating petrology, petrography, and in-situ trace element and sulfur isotopic compositions, the study provides a numerical understanding from different microscales. The deposit exhibits distinct mineral precipitation sequences including pyrite (Py1, Py2-a, Py2-b, Py3) and sphalerite (Sp-a, Sp-b), detailed as follows: Py1 is euhedral to subhedral, brittle fracture structure. Py2-a is mostly euhedral and develop porous textures, filled by chalcopyrite, galena and free gold. The homogeneous Py2-b overgrows on the rims of Py2-a. Sp-a exhibits porous textures, filled with mainly chalcopyrite, Py3, galena, free gold and silver, and minor pyrrhotite. The homogeneous Sp-b overgrows on rims of Sp-a, coexisting with magnetite.</div><div>Sulfur isotope of Py1 (0.1–11.1 ‰), Py2-a (8.3–8.7 ‰), Py2-b (9.1–10.1 ‰), Py3(7.7–10.7 ‰), Sp-a (9.5–11.4 ‰) and Sp-b (8.4–9.3 ‰) and trace element ratios reveal consistency source of ore-forming fluids, closely associated with subducted paleo-Pacific slab and overlying sediments, as well as the lithospheric mantle, although contributions are also observed from the minor lithophoric mantle, Precambrian rocks, and Mesozoic granite during the early stage of mineralization. However, the contents of ore-forming fluids clear vary across different mineralization stages. Notably, Py1 has poor As (0.22–629.17 ppm) and Au (0.01–0.20), whereas Py2-b has the highest As (up to 12028.83 ppm) and Au (0.59–4.61 ppm). Gold contents in these pyrite generations correlates positively with the As and low-melting-point chalcophile-elements (LMCEs) contents, implying high contents of As play a critical role in Au migration and precipitation, and low contents of LMCEs are also an indispensable factor. Typical porous textures and elemental zoning indicate fluid boiling and accompanied by Au remobilization, resulting in the formation of the high contents of gold or visible gold in pyrite. Based on these information, a mineralization process model of the Zhaoxian gold deposit has been established. We figured that efficient migration and precipitation mechanisms are more crucial than the initial enrichment of source areas for the high contents of gold in Jiaodong.</div></div>","PeriodicalId":19644,"journal":{"name":"Ore Geology Reviews","volume":"174 ","pages":"Article 106335"},"PeriodicalIF":3.2000,"publicationDate":"2024-11-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"A crucial mineralization process and gold source in the Zhaoxian gold deposit, Jiaodong Peninsula, China: Evidence from pyrite and sphalerite trace element and sulfur isotopic compositions\",\"authors\":\"Wen-xin Fan , Zhi-cheng Lü , Yong-qiang Liu , Lei Chen , Ze-zhong Du , Ling-li Zhou\",\"doi\":\"10.1016/j.oregeorev.2024.106335\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><div>The Zhaoxian gold deposit, located in the world’s third largest gold area and the largest in China, with a mineralization depth of 1500–2200 m, was the subject of ideal research to unravel gold source and mineralization process. Through comprehensive analyses incorporating petrology, petrography, and in-situ trace element and sulfur isotopic compositions, the study provides a numerical understanding from different microscales. The deposit exhibits distinct mineral precipitation sequences including pyrite (Py1, Py2-a, Py2-b, Py3) and sphalerite (Sp-a, Sp-b), detailed as follows: Py1 is euhedral to subhedral, brittle fracture structure. Py2-a is mostly euhedral and develop porous textures, filled by chalcopyrite, galena and free gold. The homogeneous Py2-b overgrows on the rims of Py2-a. Sp-a exhibits porous textures, filled with mainly chalcopyrite, Py3, galena, free gold and silver, and minor pyrrhotite. The homogeneous Sp-b overgrows on rims of Sp-a, coexisting with magnetite.</div><div>Sulfur isotope of Py1 (0.1–11.1 ‰), Py2-a (8.3–8.7 ‰), Py2-b (9.1–10.1 ‰), Py3(7.7–10.7 ‰), Sp-a (9.5–11.4 ‰) and Sp-b (8.4–9.3 ‰) and trace element ratios reveal consistency source of ore-forming fluids, closely associated with subducted paleo-Pacific slab and overlying sediments, as well as the lithospheric mantle, although contributions are also observed from the minor lithophoric mantle, Precambrian rocks, and Mesozoic granite during the early stage of mineralization. However, the contents of ore-forming fluids clear vary across different mineralization stages. Notably, Py1 has poor As (0.22–629.17 ppm) and Au (0.01–0.20), whereas Py2-b has the highest As (up to 12028.83 ppm) and Au (0.59–4.61 ppm). Gold contents in these pyrite generations correlates positively with the As and low-melting-point chalcophile-elements (LMCEs) contents, implying high contents of As play a critical role in Au migration and precipitation, and low contents of LMCEs are also an indispensable factor. Typical porous textures and elemental zoning indicate fluid boiling and accompanied by Au remobilization, resulting in the formation of the high contents of gold or visible gold in pyrite. Based on these information, a mineralization process model of the Zhaoxian gold deposit has been established. We figured that efficient migration and precipitation mechanisms are more crucial than the initial enrichment of source areas for the high contents of gold in Jiaodong.</div></div>\",\"PeriodicalId\":19644,\"journal\":{\"name\":\"Ore Geology Reviews\",\"volume\":\"174 \",\"pages\":\"Article 106335\"},\"PeriodicalIF\":3.2000,\"publicationDate\":\"2024-11-01\",\"publicationTypes\":\"Journal Article\",\"fieldsOfStudy\":null,\"isOpenAccess\":false,\"openAccessPdf\":\"\",\"citationCount\":\"0\",\"resultStr\":null,\"platform\":\"Semanticscholar\",\"paperid\":null,\"PeriodicalName\":\"Ore Geology Reviews\",\"FirstCategoryId\":\"89\",\"ListUrlMain\":\"https://www.sciencedirect.com/science/article/pii/S0169136824004682\",\"RegionNum\":2,\"RegionCategory\":\"地球科学\",\"ArticlePicture\":[],\"TitleCN\":null,\"AbstractTextCN\":null,\"PMCID\":null,\"EPubDate\":\"\",\"PubModel\":\"\",\"JCR\":\"Q1\",\"JCRName\":\"GEOLOGY\",\"Score\":null,\"Total\":0}","platform":"Semanticscholar","paperid":null,"PeriodicalName":"Ore Geology Reviews","FirstCategoryId":"89","ListUrlMain":"https://www.sciencedirect.com/science/article/pii/S0169136824004682","RegionNum":2,"RegionCategory":"地球科学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q1","JCRName":"GEOLOGY","Score":null,"Total":0}
A crucial mineralization process and gold source in the Zhaoxian gold deposit, Jiaodong Peninsula, China: Evidence from pyrite and sphalerite trace element and sulfur isotopic compositions
The Zhaoxian gold deposit, located in the world’s third largest gold area and the largest in China, with a mineralization depth of 1500–2200 m, was the subject of ideal research to unravel gold source and mineralization process. Through comprehensive analyses incorporating petrology, petrography, and in-situ trace element and sulfur isotopic compositions, the study provides a numerical understanding from different microscales. The deposit exhibits distinct mineral precipitation sequences including pyrite (Py1, Py2-a, Py2-b, Py3) and sphalerite (Sp-a, Sp-b), detailed as follows: Py1 is euhedral to subhedral, brittle fracture structure. Py2-a is mostly euhedral and develop porous textures, filled by chalcopyrite, galena and free gold. The homogeneous Py2-b overgrows on the rims of Py2-a. Sp-a exhibits porous textures, filled with mainly chalcopyrite, Py3, galena, free gold and silver, and minor pyrrhotite. The homogeneous Sp-b overgrows on rims of Sp-a, coexisting with magnetite.
Sulfur isotope of Py1 (0.1–11.1 ‰), Py2-a (8.3–8.7 ‰), Py2-b (9.1–10.1 ‰), Py3(7.7–10.7 ‰), Sp-a (9.5–11.4 ‰) and Sp-b (8.4–9.3 ‰) and trace element ratios reveal consistency source of ore-forming fluids, closely associated with subducted paleo-Pacific slab and overlying sediments, as well as the lithospheric mantle, although contributions are also observed from the minor lithophoric mantle, Precambrian rocks, and Mesozoic granite during the early stage of mineralization. However, the contents of ore-forming fluids clear vary across different mineralization stages. Notably, Py1 has poor As (0.22–629.17 ppm) and Au (0.01–0.20), whereas Py2-b has the highest As (up to 12028.83 ppm) and Au (0.59–4.61 ppm). Gold contents in these pyrite generations correlates positively with the As and low-melting-point chalcophile-elements (LMCEs) contents, implying high contents of As play a critical role in Au migration and precipitation, and low contents of LMCEs are also an indispensable factor. Typical porous textures and elemental zoning indicate fluid boiling and accompanied by Au remobilization, resulting in the formation of the high contents of gold or visible gold in pyrite. Based on these information, a mineralization process model of the Zhaoxian gold deposit has been established. We figured that efficient migration and precipitation mechanisms are more crucial than the initial enrichment of source areas for the high contents of gold in Jiaodong.
期刊介绍:
Ore Geology Reviews aims to familiarize all earth scientists with recent advances in a number of interconnected disciplines related to the study of, and search for, ore deposits. The reviews range from brief to longer contributions, but the journal preferentially publishes manuscripts that fill the niche between the commonly shorter journal articles and the comprehensive book coverages, and thus has a special appeal to many authors and readers.