Constraints of the lead isotope geochemical field of the Upper Mantle in China on diagenetic and ore-forming materials exemplified by porphyry copper deposit and copper-nickel sulfide deposit

MA Zhendong; FANG Junjie; LIU Xiaoquan

doi:10.12029/gc20190103

GEOLOGY IN CHINA > 2019 > 46(1): 32-42. > DOI: 10.12029/gc20190103

MA Zhendong, FANG Junjie, LIU Xiaoquan. Constraints of the lead isotope geochemical field of the Upper Mantle in China on diagenetic and ore-forming materials exemplified by porphyry copper deposit and copper-nickel sulfide deposit[J]. GEOLOGY IN CHINA, 2019, 46(1): 32-42. DOI: 10.12029/gc20190103

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Constraints of the lead isotope geochemical field of the Upper Mantle in China on diagenetic and ore-forming materials exemplified by porphyry copper deposit and copper-nickel sulfide deposit

China University of Geosciences(Wuhan), Wuhan 430074, Hubei, China

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China Geological Survey Project DD20160346

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Author Bio:
MA Zhendong, male, born in 1943, professor, majors in the teaching and study of geochemistry; E-mail: zhdongma@163.com
Received Date: November 15, 2018
Revised Date: December 11, 2018
Available Online: September 25, 2023

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Abstract

Abstract

The lead stable isotope geochemistry of regional metallogenic belts is an effective means for making regional geochemical zoning, tracing diagenetic ore-forming sources, and elucidating the genesis of deposits. Based on the unique tectonic setting of China, the authors have traced the diagenesis of large-sized and superlarge porphyry copper deposits and copper-nickel sulfide deposits in China based on the geochemical field of the lead isotope composition of the upper mantle in China for sources of ore-forming materials. Some conclusions have been reached:1. The porphyry copper deposit and the copper-nickel sulfide type ore-forming parent rock inherit the lead isotope composition of the upper mantle of the adjacent land mass; 2. The lead isotope composition of the ore-bearing rock mass and ore minerals of the two types of deposits is obviously consistent with each other, and the two traces are homologous; the lead isotope composition of the shell fused granite and surrounding strata is different from that of the ore; 3. In addition to inheriting different lead isotope composition characteristics of the mantle on each land mass, the lead isotope composition of rock and ore in the porphyry copper deposits and the copper-nickel sulfide deposits of each land mass also trace the "block effect" of the coupling between the crust and the mantle layers. At the same time, the lead isotope composition of the upper mantle may exhibits "delay effect".
- Cenozoic upper mantle lead isotope field,
- porphyry copper deposit,
- copper-nickel sulfide,
- material source

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References (62)

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5.	陈振宇，赵元艺，李小赛，刘冠男，张佳文，李瑞敏. 云南省威信县煤矿资源承载能力评价. 中国地质. 2023(02): 442-458 . 本站查看
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8.	王毅，陈曦，潘子桐，方志策. 基于变异系数法的县域环境承载力评价. 资源环境与工程. 2023(06): 697-708 .
9.	李霄，王晓光，何海洋，王长琪，朱巍，蔡贺，陈麟，唐楠. 中俄边境同江—抚远地区地质资源环境承载力评价与功能区划. 地质通报. 2023(12): 2165-2173 .
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13.	孙超，王昕洲，叶莹莹，刘琼，曹颐，韩冲，王轶. 河北省地下水资源承载能力评价及预警方法研究. 水文地质工程地质. 2022(06): 55-63 .
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Constraints of the lead isotope geochemical field of the Upper Mantle in China on diagenetic and ore-forming materials exemplified by porphyry copper deposit and copper-nickel sulfide deposit