Reconstructing South China in the Mesoproterozoic and its role in the Nuna and Rodinia supercontinents

•Yangtze and Hainan have akin detrital age peaks at 1.65 Ga, 1.45 Ga, and 1.15 Ga.•Precambrian Hainan was a part of the Yangtze, rather than the Cathaysia Block.•Yangtze located in interior of Nuna, and docked to India-Australia in Rodinia.•Cathaysia Block lay adjacent to northern India from Paleopr...

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Published inPrecambrian research Vol. 337; p. 105558
Main Authors Liu, Huichuan, Zi, Jian-Wei, Cawood, Peter A., Cui, Xiang, Zhang, Liming
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.02.2020
Subjects
Grenvillian orogeny
Hainan
Mesoproterozoic
South China
Supercontinent
Grenvillian orogeny
Mesoproterozoic
Supercontinent
South China
Hainan
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Abstract •Yangtze and Hainan have akin detrital age peaks at 1.65 Ga, 1.45 Ga, and 1.15 Ga.•Precambrian Hainan was a part of the Yangtze, rather than the Cathaysia Block.•Yangtze located in interior of Nuna, and docked to India-Australia in Rodinia.•Cathaysia Block lay adjacent to northern India from Paleoproterozoic to Paleozoic. South China, consisting of the Yangtze and Cathaysia blocks (including Hainan Island), is characterized by episodic magmatism and lithospheric-scale tectonism during 1.7–1.0 Ga, and is important in the Nuna and Rodinia reconstruction. Three newly identified Mesoproterozoic magmatic intervals at 1.76–1.60 Ga, 1.53–1.37 Ga, and 1.25–1.05 Ga, were accompanied by three mineralization events at 1.65 Ga, 1.45 Ga, and 1.05 Ga. These events are also recorded by detrital zircon from ca. 1.05 Ga equivalent sedimentary sequences in both western Yangtze and central Hainan Island. These findings indicate a common Proterozoic tectonic history shared by central Hainan and Yangtze, contradicting models invoking Grenvillian-aged tectonism in South China. The Yangtze Block occupied an intracratonic position (between Laurentia and Australia) in Nuna, before it drifted away and docked to Western Australia and northern India in the reconfigured Rodinia. The Cathaysia was located close to northern India during the Proterozoic.
AbstractList •Yangtze and Hainan have akin detrital age peaks at 1.65 Ga, 1.45 Ga, and 1.15 Ga.•Precambrian Hainan was a part of the Yangtze, rather than the Cathaysia Block.•Yangtze located in interior of Nuna, and docked to India-Australia in Rodinia.•Cathaysia Block lay adjacent to northern India from Paleoproterozoic to Paleozoic. South China, consisting of the Yangtze and Cathaysia blocks (including Hainan Island), is characterized by episodic magmatism and lithospheric-scale tectonism during 1.7–1.0 Ga, and is important in the Nuna and Rodinia reconstruction. Three newly identified Mesoproterozoic magmatic intervals at 1.76–1.60 Ga, 1.53–1.37 Ga, and 1.25–1.05 Ga, were accompanied by three mineralization events at 1.65 Ga, 1.45 Ga, and 1.05 Ga. These events are also recorded by detrital zircon from ca. 1.05 Ga equivalent sedimentary sequences in both western Yangtze and central Hainan Island. These findings indicate a common Proterozoic tectonic history shared by central Hainan and Yangtze, contradicting models invoking Grenvillian-aged tectonism in South China. The Yangtze Block occupied an intracratonic position (between Laurentia and Australia) in Nuna, before it drifted away and docked to Western Australia and northern India in the reconfigured Rodinia. The Cathaysia was located close to northern India during the Proterozoic.
ArticleNumber 105558
Author Liu, Huichuan
Zhang, Liming
Zi, Jian-Wei
Cawood, Peter A.
Cui, Xiang
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  organization: Guangdong Key Lab of Geodynamics and Geohazards, School of Earth Sciences and Engineering, Sun Yat-sen University, Guangzhou 510275, China
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Keywords Grenvillian orogeny
Mesoproterozoic
Supercontinent
South China
Hainan
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Snippet •Yangtze and Hainan have akin detrital age peaks at 1.65 Ga, 1.45 Ga, and 1.15 Ga.•Precambrian Hainan was a part of the Yangtze, rather than the Cathaysia...
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StartPage 105558
SubjectTerms Grenvillian orogeny
Hainan
Mesoproterozoic
South China
Supercontinent
Title Reconstructing South China in the Mesoproterozoic and its role in the Nuna and Rodinia supercontinents
URI https://dx.doi.org/10.1016/j.precamres.2019.105558
Volume 337
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