Apatite chemistry of Late Triassic granitic rocks from Yidun Terrane: Implications for petrogenesis and mineralization

IF 1.4 4区地球科学 Q3 GEOCHEMISTRY & GEOPHYSICS

Mineralogy and Petrology Pub Date : 2023-07-29 DOI:10.1007/s00710-023-00836-z

Zhuanrong Sun, Guochen Dong, Jiahui Tang, Jianheng Guo, Zhongbao Wang

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Abstract

The Yidun Terrane hosts huge amounts of Late Triassic granitic plutons. While the southern Yidun Terrane, also referred to as the Zhongdian arc, mainly includes Late Triassic porphyry and related porphyry Cu-Au deposits, rare mineralization was found related to the contemporary granitic batholiths in the northern Yidun terrane (NYT). This paper has explored the chemical compositions of the apatite from these intrusions, which provide insights into the petrogenesis and the mineralization potential. The higher Mg and V concentrations and La/Sm ratios of the Zhongdian apatite than the Cuojiaoma and Daocheng apatite in the NYT suggestes that the Zhongdian porphyries were derived from a mixed source with both mantle and crustal contributions, while the Cuojiaoma and Daocheng granites are dominantly crustal derived. Compared with the Cuojiaoma and Daocheng apatite, the Zhongdian apatite are characterized by higher Sr, Eu/Eu* [Eu_N/(Sm_N×Gd_N)^0.5], S and Cl, and low Mn and Y concentrations with adakitic affinity, indicating an environment with high oxygen fugacity and S and Cl contents for their parental magmas, which is favorable for the formation of porphyry Cu-Au deposits. By comparing the chemical characteristics of apatite from the ore-bearing porphyries and ore-barren granites in the Yidun Terrane, this study proposes that the apatite from the ore-bearing rocks commonly has relatively high Sr, S and Fe concentrations and low Mn, Y and Si/S ratio. These geochemical characteristics can be good indicators for predicting the metallogenic potential of the rocks.

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益墩地体晚三叠世花岗质磷灰石化学:岩石成因和成矿意义

宜墩地层蕴藏着大量的晚三叠世花岗岩柱岩。宜墩地层南部（又称中甸弧）主要包括晚三叠世斑岩型及相关斑岩型铜金矿床，而在宜墩地层北部（NYT）则发现了与当代花岗岩岩体有关的罕见矿化。本文探讨了这些侵入体中磷灰石的化学成分，为岩石成因和成矿潜力提供了启示。中甸岩磷灰石的镁和钒浓度以及la/Sm比值均高于聂拉山脉中的走马岩和稻城岩磷灰石，这表明中甸斑岩来源于地幔和地壳的混合来源，而走马岩和稻城花岗岩则主要来源于地壳。中甸斑岩的Sr、Eu/Eu* [EuN/(SmN×GdN)0.5]、S和Cl含量较高，而Mn和Y含量较低，且与赤铁矿亲和，表明其母岩具有高富氧环境和S、Cl含量，有利于斑岩型铜金矿床的形成。通过比较宜墩地层含矿斑岩和贫矿花岗岩中磷灰石的化学特征，本研究提出含矿岩石中的磷灰石通常具有相对较高的Sr、S和Fe浓度，以及较低的Mn、Y和Si/S比值。这些地球化学特征可作为预测岩石成矿潜力的良好指标。

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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来源期刊

Mineralogy and Petrology 地学-地球化学与地球物理

CiteScore

2.60

自引率

0.00%

发文量

审稿时长

1 months

期刊介绍： Mineralogy and Petrology welcomes manuscripts from the classical fields of mineralogy, igneous and metamorphic petrology, geochemistry, crystallography, as well as their applications in academic experimentation and research, materials science and engineering, for technology, industry, environment, or society. The journal strongly promotes cross-fertilization among Earth-scientific and applied materials-oriented disciplines. Purely descriptive manuscripts on regional topics will not be considered. Mineralogy and Petrology was founded in 1872 by Gustav Tschermak as "Mineralogische und Petrographische Mittheilungen". It is one of Europe''s oldest geoscience journals. Former editors include outstanding names such as Gustav Tschermak, Friedrich Becke, Felix Machatschki, Josef Zemann, and Eugen F. Stumpfl.