|Table of Contents|

Middle-Late Jurassic Granites in Nanling Region, South China: Insights from Bulk-rock Nd and Zircon Hf Isotope Mapping on the Spatial Distribution of “Tungsten in the East, Tin in the West”(PDF)

《地球科学与环境学报》[ISSN:1672-6561/CN:61-1423/P]

Issue:
2025年第05期
Page:
871-900
Research Field:
基础地质与矿床地质
Publishing date:

Info

Title:
Middle-Late Jurassic Granites in Nanling Region, South China: Insights from Bulk-rock Nd and Zircon Hf Isotope Mapping on the Spatial Distribution of “Tungsten in the East, Tin in the West”
Author(s):
ZHENG Yi1 GUO Chun-li12* CHEN Zhen-yu1 ZHANG Bin-wu1 ZHAO Qian-qian1 YAN Jin-yu1 XU Jian-qi13
(1. MNR Key Laboratory of Metallogeny and Mineral Assessment, Institute of Mineral Resources, Chinese Academy of Geological Sciences, Beijing 100037, China; 2. State Key Laboratory of Deep Earth and Mineral Exploration, Chinese Academy of Geological Sciences, Beijing 100094, China; 3. School of Resources and Environmental Engineering, Hefei University of Technology, Hefei 230009, Anhui, China)
Keywords:
rare metal granite tungsten deposit tin deposit whole-rock Nd isotope zircon Hf isotope Middle-Late Jurassic Nanling region
PACS:
P618.44; P618.67
DOI:
10.19814/j.jese.2024.08026
Abstract:
The Nanling region has witnessed the development of large-scale Middle-Late Jurassic magmatic-hydrothermal tungsten-tin polymetallic deposits associated with granite, and spatially presents a distribution pattern of “tungsten in the east, tin in the west”. Taking Chenzhou-Linwu fault as the boundary, the majority of tungsten deposits are distributed in the eastern part of Nanling region, namely the southern Jiangxi-northern Guangdong, while tin deposits are concentrated in the western part of Nanling region, namely the southern Hunan-northern Guangxi. To better demonstrate the relationship between the spatial distribution of tungsten and tin deposits in Nanling region and the material composition of the granite magma source, and to explore the reasons for the metallogenic differences of tungsten- and tin-bearing granites, the whole-rock Nd and zircon Hf isotope data of 61 granite bodies related to tungsten and tin mineralization in Middle-Late Jurassic were comprehensively collected, and the contour maps of Nd-Hf isotope and crustal model ages were plotted through software ArcGIS10.2. The results show that the bulk-rock εNd(t)value of granites in Nanling region is -15.9--0.8, and zircon εHf(t)value is -17.7-1.7; overall, the granites in the eastern part of Nanling region exhibit relatively enriched Nd-Hf isotope characteristics, their εNd(t)and εHf(t)values are concentrated in the ranges of -15.9--7.9 and -17.7--4.1, respectively, suggesting that they originate from the partial melting of the ancient crust; while the granites in the western part of Nanling region have relatively high εNd(t)values(-9.3--1.7)and εHf(t)values(-6.4-1.7), respectively, indicating that their magma source have more mantle-derived components. Additionally, quantitative modeling of the crust-mantle binary mixing system, complemented by He-Ar isotopic analyses, reveals that the mantle-derived contribution in tin-bearing granites from the western part significantly exceeds that in tungsten-bearing granites from the eastern part. Integrating these findings with previous research, the distinct spatial distribution of tungsten-tin deposits in Nanling region may be related to the different contribution degree of mantle-derived components.

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Last Update: 2025-10-01