Apatite as a fingerprint of granite fertility and gold mineralization: Evidence from the Xiaoqinling Goldfield, North China Craton

[Display omitted] •Apatite from both the Huashan and Wenyu plutons are fluorapatite of magmaticorigin.•Wenyu apatite formed under a higher oxidation state and incorporated more mantle-derived materials than Huashan apatite.•Wenyu apatite crystallized earlier than feldspar and Huashan apatite was aff...

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Published inOre geology reviews Vol. 142; p. 104720
Main Authors Liu, Jia-Wei, Li, Lin, Li, Sheng-Rong, Santosh, M., Yuan, Mao-Wen
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.03.2022
Subjects
Apatite
Gold potential
Granite fertility
In-situ geochemistry
In-situ Sr isotopes
North China Craton
Granite fertility
Apatite
Gold potential
In-situ geochemistry
In-situ Sr isotopes
North China Craton
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Abstract [Display omitted] •Apatite from both the Huashan and Wenyu plutons are fluorapatite of magmaticorigin.•Wenyu apatite formed under a higher oxidation state and incorporated more mantle-derived materials than Huashan apatite.•Wenyu apatite crystallized earlier than feldspar and Huashan apatite was affected byfeldsparcrystallization.•The magma of the Wenyu pluton incorporated more intensive fluid exsolution during crystallization.•Wenyu pluton is more favorable to gold mineralization than the Huashan pluton. The relationship between granitic magmatism and lode gold mineralization has remained as a controversial topic among economic geologists. In this paper, we report in situ elemental and Sr isotopic signature of apatite from the Wenyu and Huashan granitic plutons in the Xiaoqinling goldfield, southern margin of the North China Craton (NCC), intending to provide further constrain the relationship between magmatism and metallogeny. The formation ages of Huashan and Wenyu granitic plutons are coeval with the gold mineralization, but most of the gold deposits are clustered nearing the Wenyu pluton, and only a few small gold deposits are found adjacent to the Huashan pluton. Although apatite from both plutons is all fluorapatite, characterized by negative Eu anomaly and enrichment of LREEs, the apatite from the two plutons shows different signatures. Based on these differences, the apatite from the Huashan pluton is divided as group A (HS-A) and group B (HS-B). The δEu, δCe values and MnO and Ga contents of the Wenyu and HS-A apatite indicate high oxygen fugacity range from MH to NNO for the magma, whereas the HS-B apatite shows low oxygen fugacity range from NNO to FMQ. The 87Sr/86Sr, REE, Th/U, and Ce/Y values of the apatite suggest that the magma for the Wenyu pluton incorporated more mantle-derived materials in contrast to Huashan pluton. Sr/Y ratio and REE content of the apatite indicate that WY apatite crystallized earlier than feldspar and Huashan apatite was affected by feldspar crystallization. The fluid-volatiles exsolution texture and S content of the apatite indicate higher content of volatiles in the Wenyu pluton magma, where the magma experienced more intense fluid exsolution than that of the Huashan pluton during apatite crystallization. The characteristics of many mantle-derived materials, high oxygen fugacity, and higher volatiles as revealed by the apatite data show that the magmatism of Wenyu pluton was more conducive to the mineralization of gold deposits than that of the Huashan pluton and is more closely related to gold deposits.
AbstractList [Display omitted] •Apatite from both the Huashan and Wenyu plutons are fluorapatite of magmaticorigin.•Wenyu apatite formed under a higher oxidation state and incorporated more mantle-derived materials than Huashan apatite.•Wenyu apatite crystallized earlier than feldspar and Huashan apatite was affected byfeldsparcrystallization.•The magma of the Wenyu pluton incorporated more intensive fluid exsolution during crystallization.•Wenyu pluton is more favorable to gold mineralization than the Huashan pluton. The relationship between granitic magmatism and lode gold mineralization has remained as a controversial topic among economic geologists. In this paper, we report in situ elemental and Sr isotopic signature of apatite from the Wenyu and Huashan granitic plutons in the Xiaoqinling goldfield, southern margin of the North China Craton (NCC), intending to provide further constrain the relationship between magmatism and metallogeny. The formation ages of Huashan and Wenyu granitic plutons are coeval with the gold mineralization, but most of the gold deposits are clustered nearing the Wenyu pluton, and only a few small gold deposits are found adjacent to the Huashan pluton. Although apatite from both plutons is all fluorapatite, characterized by negative Eu anomaly and enrichment of LREEs, the apatite from the two plutons shows different signatures. Based on these differences, the apatite from the Huashan pluton is divided as group A (HS-A) and group B (HS-B). The δEu, δCe values and MnO and Ga contents of the Wenyu and HS-A apatite indicate high oxygen fugacity range from MH to NNO for the magma, whereas the HS-B apatite shows low oxygen fugacity range from NNO to FMQ. The 87Sr/86Sr, REE, Th/U, and Ce/Y values of the apatite suggest that the magma for the Wenyu pluton incorporated more mantle-derived materials in contrast to Huashan pluton. Sr/Y ratio and REE content of the apatite indicate that WY apatite crystallized earlier than feldspar and Huashan apatite was affected by feldspar crystallization. The fluid-volatiles exsolution texture and S content of the apatite indicate higher content of volatiles in the Wenyu pluton magma, where the magma experienced more intense fluid exsolution than that of the Huashan pluton during apatite crystallization. The characteristics of many mantle-derived materials, high oxygen fugacity, and higher volatiles as revealed by the apatite data show that the magmatism of Wenyu pluton was more conducive to the mineralization of gold deposits than that of the Huashan pluton and is more closely related to gold deposits.
ArticleNumber 104720
Author Li, Lin
Li, Sheng-Rong
Yuan, Mao-Wen
Santosh, M.
Liu, Jia-Wei
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  givenname: Lin
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  fullname: Li, Lin
  email: clark.li@cugb.edu.cn
  organization: State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences, 29 Xueyuan Road, Beijing 100083, China
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  givenname: Sheng-Rong
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  givenname: M.
  surname: Santosh
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  givenname: Mao-Wen
  surname: Yuan
  fullname: Yuan, Mao-Wen
  organization: State Key Laboratory of Geological Processes and Mineral Resources, China University of Geosciences, 29 Xueyuan Road, Beijing 100083, China
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Keywords Granite fertility
Apatite
Gold potential
In-situ geochemistry
In-situ Sr isotopes
North China Craton
Language English
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Snippet [Display omitted] •Apatite from both the Huashan and Wenyu plutons are fluorapatite of magmaticorigin.•Wenyu apatite formed under a higher oxidation state and...
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StartPage 104720
SubjectTerms Apatite
Gold potential
Granite fertility
In-situ geochemistry
In-situ Sr isotopes
North China Craton
Title Apatite as a fingerprint of granite fertility and gold mineralization: Evidence from the Xiaoqinling Goldfield, North China Craton
URI https://dx.doi.org/10.1016/j.oregeorev.2022.104720
Volume 142
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