Early Cretaceous potassic volcanic rocks in the Jiangnan Orogenic Belt, East China: Crustal melting in response to subduction of the Pacific–Izanagi ridge?

Eastern China is characterized by widespread Mesozoic magmatism that was closely related to subduction of the Paleo-Pacific Plate, but the genetic relationship between magmatism and subduction is not always clear. The Jiangnan Orogenic Belt (JOB) is a Neoproterozoic collisional belt between the Yang...

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Bibliographic Details
Published in:Chemical geology 2016-10, Vol.437, p.30-43
Main Authors: Zhao, Liang, Guo, Feng, Fan, Weiming, Zhang, Qingwen, Wu, Yangming, Li, Jingyan, Yan, Wen
Format: Article
Language:English
Subjects:
Basements
Belts
Brackish
Crustal melting
Early Cretaceous
Genetics
Jiangnan Orogenic Belt
Magma
Marine
Mathematical models
Melts
Potassic lavas
Ridge subduction
Ridges
Rocks
South China
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Summary:Eastern China is characterized by widespread Mesozoic magmatism that was closely related to subduction of the Paleo-Pacific Plate, but the genetic relationship between magmatism and subduction is not always clear. The Jiangnan Orogenic Belt (JOB) is a Neoproterozoic collisional belt between the Yangtze and Cathaysian blocks. Early Cretaceous felsic magmas from the Tianmushan basin in the eastern JOB form a >3000m thick volcanic sequence erupted within an extremely short period of time (132–130Ma). These rocks are potassic (K2O=3.86–6.05%) and peraluminous (A/CNK=1.0–1.23), and are compositionally similar to experimental melts derived from predominantly clay-poor and K-rich metasediments or granodiorites at crustal conditions. They are LILE- and LREE-enriched ((La/Yb)CN=9.0–14.6) and display variable Eu anomalies and Nb–Ta depletion. The weakly variable and negative whole-rock εNd(t) (−5.4 to −2.5) and heterogeneous zircon εHf(t) values (−6.7 to +3.5) of these rocks are similar to those of basement rocks beneath the JOB, suggesting a genetic relationship with basement. No magmas with clear subduction-related composition occurred at this time in the area and the compositions of the potassic rocks more closely resemble high-temperature melts of extensively thinned crust in continental rift environments. Our data favors a model that the Early Cretaceous potassic magmas formed as subduction of the Pacific–Izanagi ridge resulted in upwelling asthenosphere, providing the high temperatures required to extensively melt the lower-middle crust in the eastern JOB.
ISSN:0009-2541
1872-6836
DOI:10.1016/j.chemgeo.2016.05.011