A critical review on petrogenetic, metallogenic and geodynamic implications of granitic rocks exposed in north and east China: New insights from apatite geochemistry

[Display omitted] •Magmatic apatite reflects the parental magma attributes of Luming and Lower Yangtze granites.•Apatite Sr contents and REEs ratios serve as significant proxies to trace the differentiation history of granitic rocks.•Apatite chemical constituents act as a vigorous tool to identify m...

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Published inJournal of geodynamics Vol. 136; p. 101723
Main Authors Zafar, Tehseen, Rehman, Hafiz Ur, Mahar, Munazzam Ali, Alam, Masroor, Oyebamiji, Abiola, Rehman, Saif Ur, Leng, Cheng-Biao
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.05.2020
Subjects
Apatite
evolution
Geodynamic
Luming and LYRB granites
Magmatic
Mineralization
Petrogenetic characteristics
Magmatic
Mineralization
Petrogenetic characteristics
Apatite
Geodynamic
evolution
Luming and LYRB granites
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Abstract [Display omitted] •Magmatic apatite reflects the parental magma attributes of Luming and Lower Yangtze granites.•Apatite Sr contents and REEs ratios serve as significant proxies to trace the differentiation history of granitic rocks.•Apatite chemical constituents act as a vigorous tool to identify mineralization and regional metallogeny of plutons.•Apatite chemistry is a valuable and powerful proxy to evaluate the tectonic evolution of granites. Apatite is significant phosphate-bearing accessory mineral that is omnipresent in most granitic rocks. In this study, we present geochemical characteristics of magmatic apatites from the Luming and Lower Yangtze granitic belts of NE and eastern China to explore their potential in petrogenesis, mineralization and tectonic evolution of granites. The petrogenetic, metallogenic and tectonic aspects of these granites remain subjects of great debate. This review aims to clarify these issues based on apatite geochemistry. The investigated apatites from both these localities are mainly fluorapatites reflecting the actual attributes of parental melts. Apatites from Luming and Lower Yangtze River Belt (LYRB) exhibit strong negative Eu anomalies suggesting plagioclase crystallization earlier than apatite. The negative correlation of Eu/Eu* (δEu) vs Mn, δEu vs δCe and δEu vs Ga in the apatites signifies that the parental magmas of both granites are produced under moderate reduced conditions. The Sr contents and REEs ratios in apatites serve as significant proxies to trace the differentiation history of Luming and Lower Yangtze granitic plutons. The apatites Sr/Y ratios vs δEu also exhibit that both granites are non-adakitic in nature which is consistent with the host rocks non-adakitic affinities. Halogen data indicates that apatites of Lower Yangtze comprising more chlorine (0.02–1.45 wt.%) and less fluorine (1.51–3.85 wt.%) are linked with slab dehydration whereas apatites from Luming having lower Cl (0–0.04 wt.%) and higher F contents (3.36–5.29 wt.%) suggest association of granites with partial melting of juvenile crust material. Based on the positive correlation of SO3 with Li, (La/Sm)N vs (Yb/Sm)N and obvious variations of (La/Yb)N vs Eu/Eu*, it is inferred that these host rocks are ore-associated. Furthermore, geochemical signatures of apatites from LYRB show low F/Cl ratios, stable La/Sm ratios, high δEu (0.04–0.43, average 0.21) and low δCe values (0.96–1.12, average 1.02) indicating that the magmas of these granites have association with slab dehydration and linked with Cu–Mo–W mineralization, induced from the mutual impacts of Paleo-Pacific plate subduction and intraplate extension. In comparison, fairly high F/Cl ratios, La/Sm ratios, low δEu (0.12–0.23, average 0.16), high δCe values (0.98–1.09, average 1.04) and low Sr/Th ratios of Luming apatites infer that the Mo–W bearing granites are originated in consequence of partial melting of juvenile crustal material. Based on apatite geochemistry, we document first time varieties of ore deposits specifically Mo–W and Cu deposit in LYRB and Mo–W deposit in Luming which are developed under lower oxygen fugacity. The compiled geochemical data and interpretations propose that apatite chemical constituents are worthwhile to pinpoint polymetallic mineralization and fingerprint for ore types. In view of these findings, we confirm that apatite is not only consistent to trace geological facts about parental magma characteristics but also a reliable pointer of geodynamic evolution and ore varieties.
AbstractList [Display omitted] •Magmatic apatite reflects the parental magma attributes of Luming and Lower Yangtze granites.•Apatite Sr contents and REEs ratios serve as significant proxies to trace the differentiation history of granitic rocks.•Apatite chemical constituents act as a vigorous tool to identify mineralization and regional metallogeny of plutons.•Apatite chemistry is a valuable and powerful proxy to evaluate the tectonic evolution of granites. Apatite is significant phosphate-bearing accessory mineral that is omnipresent in most granitic rocks. In this study, we present geochemical characteristics of magmatic apatites from the Luming and Lower Yangtze granitic belts of NE and eastern China to explore their potential in petrogenesis, mineralization and tectonic evolution of granites. The petrogenetic, metallogenic and tectonic aspects of these granites remain subjects of great debate. This review aims to clarify these issues based on apatite geochemistry. The investigated apatites from both these localities are mainly fluorapatites reflecting the actual attributes of parental melts. Apatites from Luming and Lower Yangtze River Belt (LYRB) exhibit strong negative Eu anomalies suggesting plagioclase crystallization earlier than apatite. The negative correlation of Eu/Eu* (δEu) vs Mn, δEu vs δCe and δEu vs Ga in the apatites signifies that the parental magmas of both granites are produced under moderate reduced conditions. The Sr contents and REEs ratios in apatites serve as significant proxies to trace the differentiation history of Luming and Lower Yangtze granitic plutons. The apatites Sr/Y ratios vs δEu also exhibit that both granites are non-adakitic in nature which is consistent with the host rocks non-adakitic affinities. Halogen data indicates that apatites of Lower Yangtze comprising more chlorine (0.02–1.45 wt.%) and less fluorine (1.51–3.85 wt.%) are linked with slab dehydration whereas apatites from Luming having lower Cl (0–0.04 wt.%) and higher F contents (3.36–5.29 wt.%) suggest association of granites with partial melting of juvenile crust material. Based on the positive correlation of SO3 with Li, (La/Sm)N vs (Yb/Sm)N and obvious variations of (La/Yb)N vs Eu/Eu*, it is inferred that these host rocks are ore-associated. Furthermore, geochemical signatures of apatites from LYRB show low F/Cl ratios, stable La/Sm ratios, high δEu (0.04–0.43, average 0.21) and low δCe values (0.96–1.12, average 1.02) indicating that the magmas of these granites have association with slab dehydration and linked with Cu–Mo–W mineralization, induced from the mutual impacts of Paleo-Pacific plate subduction and intraplate extension. In comparison, fairly high F/Cl ratios, La/Sm ratios, low δEu (0.12–0.23, average 0.16), high δCe values (0.98–1.09, average 1.04) and low Sr/Th ratios of Luming apatites infer that the Mo–W bearing granites are originated in consequence of partial melting of juvenile crustal material. Based on apatite geochemistry, we document first time varieties of ore deposits specifically Mo–W and Cu deposit in LYRB and Mo–W deposit in Luming which are developed under lower oxygen fugacity. The compiled geochemical data and interpretations propose that apatite chemical constituents are worthwhile to pinpoint polymetallic mineralization and fingerprint for ore types. In view of these findings, we confirm that apatite is not only consistent to trace geological facts about parental magma characteristics but also a reliable pointer of geodynamic evolution and ore varieties.
ArticleNumber 101723
Author Zafar, Tehseen
Rehman, Hafiz Ur
Oyebamiji, Abiola
Leng, Cheng-Biao
Mahar, Munazzam Ali
Rehman, Saif Ur
Alam, Masroor
Author_xml – sequence: 1
  givenname: Tehseen
  surname: Zafar
  fullname: Zafar, Tehseen
  email: zafar@vip.gyig.ac.cn
  organization: State Key Laboratory of Ore Deposit Geochemistry, Institute of Geochemistry, Chinese Academy of Sciences, Guiyang, 550081, China
– sequence: 2
  givenname: Hafiz Ur
  surname: Rehman
  fullname: Rehman, Hafiz Ur
  organization: Department of Earth and Environmental Sciences, Kagoshima University, Kagoshima, 890-0065, Japan
– sequence: 3
  givenname: Munazzam Ali
  surname: Mahar
  fullname: Mahar, Munazzam Ali
  organization: Department of Geological Sciences, University of Texas at El Paso, El Paso, TX, 79968, United States
– sequence: 4
  givenname: Masroor
  surname: Alam
  fullname: Alam, Masroor
  organization: Department of Earth Sciences, Karakoram International University, Gilgit, 15100, Pakistan
– sequence: 5
  givenname: Abiola
  surname: Oyebamiji
  fullname: Oyebamiji, Abiola
  organization: State Key Laboratory of Ore Deposit Geochemistry, Institute of Geochemistry, Chinese Academy of Sciences, Guiyang, 550081, China
– sequence: 6
  givenname: Saif Ur
  surname: Rehman
  fullname: Rehman, Saif Ur
  organization: Institute of Geology, University of the Punjab, Lahore, 54590, Pakistan
– sequence: 7
  givenname: Cheng-Biao
  surname: Leng
  fullname: Leng, Cheng-Biao
  organization: State Key Laboratory of Ore Deposit Geochemistry, Institute of Geochemistry, Chinese Academy of Sciences, Guiyang, 550081, China
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Keywords Magmatic
Mineralization
Petrogenetic characteristics
Apatite
Geodynamic
evolution
Luming and LYRB granites
Language English
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Snippet [Display omitted] •Magmatic apatite reflects the parental magma attributes of Luming and Lower Yangtze granites.•Apatite Sr contents and REEs ratios serve as...
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SubjectTerms Apatite
evolution
Geodynamic
Luming and LYRB granites
Magmatic
Mineralization
Petrogenetic characteristics
Title A critical review on petrogenetic, metallogenic and geodynamic implications of granitic rocks exposed in north and east China: New insights from apatite geochemistry
URI https://dx.doi.org/10.1016/j.jog.2020.101723
Volume 136
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