Geochronology, Geochemistry, and Geodynamic Relationship of the Mafic Dykes and Granites in the Qianlishan Complex, South China

The Qianlishan complex, located in Hunan Province of South China, is closely associated with intense W-dominated polymetallic mineralization. The Qianlishan complex is composed of three phases: the main-phase porphyritic and equigranular granites, granite porphyry, and mafic dykes. Geochronologically, the zircon U-Pb dating results show that the porphyritic and equigranular granites have ages of approximately 159 and 158 Ma, respectively, similar to those of mafic dykes (approximately 158 Ma), while the granite porphyry was formed later at approximately 145 Ma. Geochemically, the mafic dykes are characterized by calc-alkaline high-Mg andesite (HMA) with high MgO, TiO2, Mg#, and CA/TH index. They exhibit significantly depleted εNd(t) and εHf(t) with high Ba/La, La/Nb, and (La/Yb)N, indicating that they formed from mixing melts of depleted asthenospheric mantle and metasomatized subcontinental lithospheric mantle (SCLM). The main-phase granites are peraluminous and are characterized by high SiO2, low (La/Yb)N ratios, and relative depletion in Ba, Sr, Ti, and Eu. They also display negative correlations between La, Ce, Y, and Rb contents, suggesting that they are highly fractionated S-type granites. Furthermore, they show high εNd(t) and εHf(t), CaO/Na2O ratios, HREE, and Y contents, indicating that they were produced by parental melting of ancient basement mixed with mantle-derived components. In contrast, the granite porphyry shows A-type signature granites, with higher εNd(t) and εHf(t) and CaO/Na2O ratios than the main-phase granites but similar Zr/Nb and Zr/Hf ratios to the mafic dykes, suggesting that they are the products of partial melting of a hybrid source with ancient basement and the mafic dykes. We thus infer that the slab roll-back led to generation of Qianlishan back-arc basalt and HMA and further triggered the formation of the Qianlishan granite.

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Late Paleozoic- Early Mesozoic tectonics of Hainan Island: Key to understanding Paleotethyan geology

10.5194/egusphere-egu2020-3213 ◽

2020 ◽

Author(s):

Huiying He ◽

Peter Cawood ◽

Yuejun Wang

Keyword(s):

South China ◽

Tectonic Evolution ◽

Hainan Island ◽

Igneous Rocks ◽

Late Paleozoic ◽

Calc Alkaline ◽

Early Mesozoic ◽

History Of ◽

Back Arc ◽

T Values

In Southeast Asia, establishing the origin and associated tectonic setting of Late Paleozoic-Early Mesozoic igneous rocks is complicated by structural overprinting and the complex tectonic evolution of the Paleotethyan regime. Hainan Island, located at the south-eastern margin of the Paleotethys, and lacking significant tectonic overprints is a key to understand amalgamation history of the Indochina and South China blocks and to constraining the tectonic evolution of Paleotethys ocean in southeast Asia.The Late Paleozoic-Early Mesozoic record of igneous rocks on Hainan Island includes the following. 1) ca. 350 Ma island arc andesites and ca. 330 Ma metabasites, the latter with both MORB- and arc-like geochemical affinities, positive &#949;Nd(t) values of +5.86 &#8211; +9.85 and rare inherited zircons with a zircon age of 1400 Ma inferred to be derived from a MORB source with the input of a slab-derived component. Together with the ~350 Ma island arc andesites, the Carboniferous tectonic environment is supposed to be a continental back-arc basin setting. 2) Late Permian gneiss granitoids (272-252 Ma) characterized by a gneissic foliation and calc-alkaline I-type geochemical affinities with negative Nb-Ta and Ti anomalies, related to metasomatized mantle wedge modified by the sediment-derived component in a continental arc setting. 3) ca. 257 Ma arc-like andesites, which further validate a subduction-related setting. 4) Peraluminious Early-Middle Triassic massive granitoids (251&#8211;243 Ma) with slightly high A/CNK ratios, &#948;18O values (up to 11.75 &#8240;) and Sr/Y ratios, inferred to have formed in a compressive regime from a mixed source of greywacke and metabasite. 5) Middle-Late Triassic (242&#8211;225 Ma) high-K calc-alkaline granitoids with high zircon temperatures (842&#8211;867&#176;C) and geochemical signatures of A-type granites. They show slightly low whole-rock &#949;Nd(t) and zircon &#949;Hf(t) values, suggestive of the derivation from a metabasite&#8211;greywacke source in an extensional setting. 6) ca. 240 Ma gabbro-dolerites showing enrichment in LILEs, depletion in HFSEs, negative &#949;Nd (t)-&#949;Hf (t) values (&#8722;8.45 to &#8722;1.05 and &#8722;5.9 to &#8722;2.7, respectively) and crustal-like &#948;18O values (7.26&#8211;8.70&#8240;), it is implied that the Hainan Island entered into post-collisional environment in response to the asthenosphere upwelling shortly after the closure of back-arc basin.Thus, Hainan Island provides a record of Carboniferous back-arc basin opening, followed by an extended Permian&#8211;Triassic history of subduction-related consumption leading to orogenic assembly and extensional collapse between the South China and Indochina blocks. Such a tempo-spatial pattern is consistent with that along the Song Ma&#8211;Ailaoshan suture zone rather than the magmatic history of eastern South China and indicates that the Paleotethys extended west to at least Hainan Island in the Late Paleozoic-Early Mesozoic.

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In situ LA-MC-ICP-MS and ID-TIMS U–Pb geochronology of cassiterite in the giant Furong tin deposit, Hunan Province, South China: New constraints on the timing of tin–polymetallic mineralization

Ore Geology Reviews ◽

10.1016/j.oregeorev.2011.08.002 ◽

2011 ◽

Vol 43 (1) ◽

pp. 235-242 ◽

Cited By ~ 124

Author(s):

Shunda Yuan ◽

Jiantang Peng ◽

Shuang Hao ◽

Huimin Li ◽

Jianzhen Geng ◽

...

Keyword(s):

South China ◽

Hunan Province ◽

Icp Ms ◽

Polymetallic Mineralization ◽

Tin Deposit

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Comment on “Petrogenesis of cretaceous shoshonitic rocks in the northern Wuyi Mountains, South China: A result of the roll-back of a flat-slab?” by

Lithos ◽

10.1016/j.lithos.2019.04.015 ◽

2020 ◽

Vol 366-367 ◽

pp. 105044 ◽

Cited By ~ 1

Author(s):

Ye Tian ◽

Yang Wang

Keyword(s):

South China ◽

Flat Slab ◽

Roll Back

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The role of structural reactivation for gold mineralization in northeastern Hunan Province, South China

Journal of Structural Geology ◽

10.1016/j.jsg.2021.104306 ◽

2021 ◽

pp. 104306

Author(s):

Yueqiang Zhou ◽

Deru Xu ◽

Guojun Dong ◽

Guoxiang Chi ◽

Teng Deng ◽

...

Keyword(s):

South China ◽

Gold Mineralization ◽

Hunan Province

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Zircon U–Pb age, geochemical, and Sr–Nd–Pb–Hf isotopic constraints on the time frame and origin of Early Cretaceous mafic dykes in the Wuling Mountain gravity lineament, South China

Acta Geologica Sinica - English Edition ◽

10.1111/1755-6724.14656 ◽

2021 ◽

Author(s):

Xiaoqing CHEN ◽

Shen LIU ◽

Caixia FENG ◽

Jingyan XU ◽

Huibo ZHAO ◽

...

Keyword(s):

Early Cretaceous ◽

South China ◽

Time Frame ◽

Mafic Dykes ◽

Isotopic Constraints

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Neoproterozoic modification of heterogeneous continental lithosphere beneath the Yangtze interior: revealed from mafic dykes from the Huangling area, South China

International Journal of Earth Sciences ◽

10.1007/s00531-021-02098-6 ◽

2021 ◽

Author(s):

Xiang Cui ◽

Wenbin Zhu ◽

Xi Wang

Keyword(s):

South China ◽

Continental Lithosphere ◽

Mafic Dykes

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Geochronology, Geochemistry, and Pb–Hf Isotopic Composition of Mineralization-Related Magmatic Rocks in the Erdaohezi Pb–Zn Polymetallic Deposit, Great Xing’an Range, Northeast China

Minerals ◽

10.3390/min10030274 ◽

2020 ◽

Vol 10 (3) ◽

pp. 274

Author(s):

Zhitao Xu ◽

Jinggui Sun ◽

Xiaolong Liang ◽

Zhikai Xu ◽

Xiaolei Chu

Keyword(s):

Lower Crust ◽

Western Slope ◽

Quartz Porphyry ◽

Late Mesozoic ◽

Hypabyssal Intrusions ◽

Polymetallic Mineralization ◽

Great Xing’An Range ◽

Hf Isotopic Composition ◽

Back Arc ◽

T Values

Late Mesozoic intermediate–felsic volcanics and hypabyssal intrusions are common across the western slope of the Great Xing’an Range (GXAR). Spatiotemporally, these hypabyssal intrusions are closely associated with epithermal Pb–Zn polymetallic deposits. However, few studies have investigated the petrogenesis, contributions and constraints of these Pb–Zn polymetallic mineralization-related intrusions. Therefore, we examine the representative Erdaohezi deposit and show that these mineralization-related hypabyssal intrusions are composed of quartz porphyry and andesite porphyry with concordant zircon U–Pb ages of 160.3 ± 1.4 Ma and 133.9 ± 0.9 Ma, respectively. These intrusions are peraluminous and high-K calc-alkaline or shoshonitic with high Na2O + K2O contents, enrichment in large ion lithophile elements (LILEs; e.g., Rb, Th, and U), and depletion in high field strength elements (HFSEs; e.g., Nb, Ta, Zr, and Hf), similar to continental arc intrusions. The zircon εHf(t) values range from 3.1 to 8.0, and the 176Hf/177Hf values range from 0.282780 to 0.282886, with Hf-based Mesoproterozoic TDM2 ages. No differences exist in the Pb isotope ratios among the quartz porphyry, andesite porphyry and ore body sulfide minerals. Detailed elemental and isotopic data imply that the quartz porphyry originated from a mixture of lower crust and newly underplated basaltic crust, while the andesite porphyry formed from the partial melting of Mesoproterozoic lower crust with the minor input of mantle materials. Furthermore, a magmatic–hydrothermal origin is favored for the Pb–Zn polymetallic mineralization in the Erdaohezi deposit. Integrating new and published tectonic evolution data, we suggest that the polymetallic mineralization-related magmatism in the Erdaohezi deposit occurred in a back-arc extensional environment at ~133 Ma in response to the rollback of the Paleo-Pacific Plate.

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