Multi-stage granitic magmatism during exhumation of subducted continental lithosphere: Evidence from the Wulong pluton, South Qinling

Detailed petrology and zircon U–Pb dating data indicate that the Wulong pluton is a zoned granitic intrusive, formed from successive increments of magmas. An age range of at least 30Ma is recorded from the 225–235Ma quartz diorite on the pluton margin, the ca. 218Ma granodiorite in the intermediate...

Full description

Saved in:
Bibliographic Details
Published inGondwana research Vol. 24; no. 3-4; pp. 1108 - 1126
Main Authors Qin, Jiang-Feng, Lai, Shao-Cong, Li, Yong-Fei
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.11.2013
Subjects
Online AccessGet full text

Cover

Loading…
More Information
Summary:Detailed petrology and zircon U–Pb dating data indicate that the Wulong pluton is a zoned granitic intrusive, formed from successive increments of magmas. An age range of at least 30Ma is recorded from the 225–235Ma quartz diorite on the pluton margin, the ca. 218Ma granodiorite in the intermediate zone, and the ca. 207Ma monzogranite at the pluton center. All the granitoids display evolved Sr–Nd–Pb isotopic compositions, with 87Sr/86Sr(i) of 0.7044–0.7062, unradiogenic Nd (εNd(t) values of −6.1 to −3.0, Nd model ages of 1.1–1.3Ga, and moderately radiogenic Pb compositions (206Pb/204Pb(i)=17.500–17.872, 207Pb/204Pb(i)=15.513–15.549, 208Pb/204Pb(i)=37.743–38.001), in combination with variations in zircon Hf isotopic compositions (with εHf(t) values in each stage span 12 units) and the Hf isotopic model ages of 800–1600Ma. These features suggest that the granitoids might have been derived from the reworking of an old lower crust, mixed with Paleozoic and Proterozoic materials. The rocks also display an adakitic affinity with Sr (479–973ppm), high Sr/Y ratios (mostly >60) and negligible Eu anomalies (Eu/Eu*=0.78–0.97) but low Rb/Sr ratios, low Y (4.6–17ppm), HREE (Yb=0.95–1.7ppm), Yb/Lu (6–7) and Dy/Yb (1.9–2.4) ratios, suggesting the absence of plagioclase and presence of garnet+amphibole in their residue. Considering a large gap among their crystallization ages, we propose that the geochemical evolution from pluton margin to center was controlled mainly by melting conditions and source compositions rather than fractional crystallization. Mafic enclaves that were hosted in the quartz diorite and granodiorite are mainly syenogabbroic to syenodioritic in composition, and are metaluminous and enriched in LREE and LILEs, but are depleted in HFSE, and display an evolved Sr–Nd–Pb isotopic composition, suggesting that they may have been derived from the partial melting of an enriched mantle lithosphere, which was metasomatized by adakitic melts and fluids from a subducted continental crust. In combination with the results of the Triassic ultra-high pressure metamorphic rocks in the Dabie orogenic belt, we apply a model involving the exhumation of subducted continental crust to explain the formation of the Wulong pluton. At the first stage, a dense and refractory mafic lower crust that was trapped at mantle depth by continental subduction witnessed melting under high temperature conditions to produce the quartz diorite magma, characterized by low SiO2 (60.65–63.98wt.%) and high TiO2 (0.39–0.86wt.%). The magma subsequently interacted with mantle peridotite, leading to high Mg# (57–67) and the metasomatism of the overriding mantle wedge. At the second stage, an asthenosphere upwelling that was probably caused by slab break-off at ca. 220Ma melted the enriched sub-continental lithospheric mantle (SCLM) to produce mafic magmas, represented by the mafic enclaves that are hosted in the quartz and granodiorite, resulting in the partial melting of the shallower subducted crust, and generating the granodiorite that is distinguished by high SiO2 (69.16–70.82wt.%), high Al2O3 (15.33–16.22wt.%) and A/CNK values (mostly >1.05). At the third stage, the final collapse of the Triassic Qinling–Dabie Orogenic Belt at ca. 215–205Ma caused extensive partial melting of the thickened orogenic lower crust to produce the monzogranite, which is characterized by high SiO2 (67.68–70.29wt.%), low TiO2 (mostly <0.35wt.%) and high Sr/Y ratios of 86–151. [Display omitted] ► The zoned granite pluton was formed by three stages of increments. ► Quartz diorite in margin, granodiorite in middle and monzogranite in centre. ► Geochemistry indicates high-K calc-alkaline adakitic affinity. ► Formation through multi-stage partial melting of subducted Yangtze crust.
ISSN:1342-937X
1878-0571
DOI:10.1016/j.gr.2013.02.005