Detrital multi-mineral provenance constraints on the reconstruction of the South China Block within Gondwana

The late Neoproterozoic-early Paleozoic marked an important interval in Earth history, during which there was the transition from the breakup of Rodinia to the assembly of the Gondwana supercontinent. The South China Block (SCB) is a key part of Gondwana, and is an important component in its paleoge...

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Bibliographic Details
Published in:Earth-Science Reviews
Main Authors: Xue, Er-Kun, Chew, David, Drakou, Foteini, Wang, Wei
Format: Report
Language:English
Published: 2024
Subjects:
Geology
Gondwana
Detrital rutile
Detrital apatite
Detrital zircon
South China Block
Supercontinent reconstructions
Multi -mineral provenance
East Antarctica
Antarc*
Antarctica
Online Access:http://ir.gig.ac.cn/handle/344008/78483
http://ir.gig.ac.cn/handle/344008/78484
https://doi.org/10.1016/j.earscirev.2024.104798
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Summary:The late Neoproterozoic-early Paleozoic marked an important interval in Earth history, during which there was the transition from the breakup of Rodinia to the assembly of the Gondwana supercontinent. The South China Block (SCB) is a key part of Gondwana, and is an important component in its paleogeographic reconstructions. Sedimentary provenance analysis has been applied to constrain the SCB source -to -sink systems and hence to reconstruct its position within Gondwana. However, previous studies have mainly undertaken detrital zircon provenance analysis on Cryogenian-Ordovician strata from a single sedimentary basin, leading to different paleogeographic models for the SCB within the Gondwana supercontinent. To resolve these challenges, detrital rutile, apatite and zircon data of Cryogenian to Ordovician successions from four sub -basins in the Cathaysia Block of South China were compiled in addition to acquiring new data from four samples. Detrital rutile and apatite from the Cryogenian to Ordovician successions share similar 650 -500 Ma major age populations, which are considered mainly derived from Pan-African orogens in western Australia, India and East Antarctica. Most detrital rutiles are derived from amphibolite- or eclogite-facies metamorphic rocks, with appreciable proportions (22 -42%) derived from metamafic rocks. The apatite data demonstrate a significant amount of metamorphic(52 -72% of all grains) and mafic-derived (40 -70% of igneous -derived grains) populations. Three provenance switches are demonstrated by the detrital apatite data and indicate the exhumation of Pan-African orogens in the late Cryogenian, Ediacaran-Cambrian, and early Ordovician in the source areas. In contrast, the detrital zircon data are characterized mainly by 1300 -900 Ma igneous populations from late Mesoproterozoic-early Neoproterozoic orogens in western Australia and India. Provenance switches caused by exhumation of the orogenic sources and the Cathaysia Block in the late Ediacaran and middle Cambrian are detected. The ...

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