Provenance and tectonic setting of the Paleo- to Mesoproterozoic Dongchuan Group in the southwestern Yangtze Block, South China: Implication for the breakup of the supercontinent Columbia

The Paleoproterozoic to Mesoproterozoic (1742–1503Ma) Dongchuan Group in the southwestern Yangtze Block is a rift-related sedimentary sequence that was associated with the breakup of the supercontinent Columbia and is particularly important for the possible linkage between the Yangtze Block and othe...

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Bibliographic Details
Published inTectonophysics Vol. 610; pp. 110 - 127
Main Authors Wang, Wei, Zhou, Mei-Fu
Format Journal Article
LanguageEnglish
Published Elsevier B.V 06.01.2014
Subjects
Australia
Blocking
Breakup
Continents
Dongchuan Group
Formations
Paleo- to Mesoproterozoic
Rift
Sandstones
Scandium
South China
Supercontinent Columbia
Tectonics
Yangtze Block
Australia
Laurentia
Paleo- to Mesoproterozoic
Supercontinent Columbia
Rift
South China
Yangtze Block
Dongchuan Group
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Abstract The Paleoproterozoic to Mesoproterozoic (1742–1503Ma) Dongchuan Group in the southwestern Yangtze Block is a rift-related sedimentary sequence that was associated with the breakup of the supercontinent Columbia and is particularly important for the possible linkage between the Yangtze Block and other continents in Columbia. The Dongchuan Group consists of the Yinmin, Luoxue, Etouchang and Luzhijiang formations from the base upward. Sandstones from the Yinmin Formation are mainly arkose containing dominant K-feldspar with subordinate plagioclase and quartz. Abundant feldspar and high Qm/Q ratios (0.94–1) are indicative of plutonic sources. These sandstones have high La/Sc (3.06 to 4.32), low Sc/Th (0.74 to 1.15) and Co/Th (0.85 to 1.52) and highly evolved Nd isotopes (εNd(t)=−6.2 to −8.2), consistent with an old, felsic igneous source. Detrital zircons of this formation have two major age groups at 2602–2887Ma and 2224–2392Ma. Siltstones of the Etouchang Formation have detrital zircons with a prominent age peak at ~2560Ma and several subordinate peaks at ~2180Ma, ~2100Ma and ~1900Ma. They have high Sc/Th (1.00–7.08), Co/Th (0.13 to 6.31) and εNd(t) (−2.1 to −6.7), significantly different from the Yinmin Formation. The Yinmin Formation is interpreted to deposit during the initial stage of extensional rifting receiving detritus of granites and TTG mainly from uplifted shoulder. The Etouchang Formation more likely formed in a passive margin with sedimentary material largely from cratonic sources. Paleoproterozoic to Mesoproterozoic rift basins in the southwestern Yangtze Block, north Australia and northwestern Laurentia have remarkably similar provenance and tectonic setting in their lower part (1742–1596Ma), but significantly different since the onset of the Etouchang Formation (ca. 1596Ma). Therefore, the southwestern Yangtze Block was likely connected with the north Australia and northwestern Laurentia in Columbia and drifted away from these continents on or before ca. 1596Ma. •The Dongchuan (DC) Group in SW Yangtze Block formed between 1742Ma and 1503Ma.•Remarkably different provenance for the lower and upper DC groups.•Sedimentation of the DC Group was associated with rifting setting to passive margin.•The SW Yangtze Block was connected with N Australia and NW Laurentia in Columbia.•The Yangtze Block drifted away from adjacent continents on or before ca. 1590Ma.
AbstractList The Paleoproterozoic to Mesoproterozoic (1742a1503 Ma) Dongchuan Group in the southwestern Yangtze Block is a rift-related sedimentary sequence that was associated with the breakup of the supercontinent Columbia and is particularly important for the possible linkage between the Yangtze Block and other continents in Columbia. The Dongchuan Group consists of the Yinmin, Luoxue, Etouchang and Luzhijiang formations from the base upward. Sandstones from the Yinmin Formation are mainly arkose containing dominant K-feldspar with subordinate plagioclase and quartz. Abundant feldspar and high Qm/Q ratios (0.94a1) are indicative of plutonic sources. These sandstones have high La/Sc (3.06 to 4.32), low Sc/Th (0.74 to 1.15) and Co/Th (0.85 to 1.52) and highly evolved Nd isotopes (ImNd(t) = a 6.2 to a 8.2), consistent with an old, felsic igneous source. Detrital zircons of this formation have two major age groups at 2602a2887 Ma and 2224a2392 Ma. Siltstones of the Etouchang Formation have detrital zircons with a prominent age peak at ~ 2560 Ma and several subordinate peaks at ~ 2180 Ma, ~ 2100 Ma and ~ 1900 Ma. They have high Sc/Th (1.00a7.08), Co/Th (0.13 to 6.31) and ImNd(t) (a 2.1 to a 6.7), significantly different from the Yinmin Formation. The Yinmin Formation is interpreted to deposit during the initial stage of extensional rifting receiving detritus of granites and TTG mainly from uplifted shoulder. The Etouchang Formation more likely formed in a passive margin with sedimentary material largely from cratonic sources. Paleoproterozoic to Mesoproterozoic rift basins in the southwestern Yangtze Block, north Australia and northwestern Laurentia have remarkably similar provenance and tectonic setting in their lower part (1742a1596 Ma), but significantly different since the onset of the Etouchang Formation (ca. 1596 Ma). Therefore, the southwestern Yangtze Block was likely connected with the north Australia and northwestern Laurentia in Columbia and drifted away from these continents on or before ca. 1596 Ma.
The Paleoproterozoic to Mesoproterozoic (1742–1503Ma) Dongchuan Group in the southwestern Yangtze Block is a rift-related sedimentary sequence that was associated with the breakup of the supercontinent Columbia and is particularly important for the possible linkage between the Yangtze Block and other continents in Columbia. The Dongchuan Group consists of the Yinmin, Luoxue, Etouchang and Luzhijiang formations from the base upward. Sandstones from the Yinmin Formation are mainly arkose containing dominant K-feldspar with subordinate plagioclase and quartz. Abundant feldspar and high Qm/Q ratios (0.94–1) are indicative of plutonic sources. These sandstones have high La/Sc (3.06 to 4.32), low Sc/Th (0.74 to 1.15) and Co/Th (0.85 to 1.52) and highly evolved Nd isotopes (εNd(t)=−6.2 to −8.2), consistent with an old, felsic igneous source. Detrital zircons of this formation have two major age groups at 2602–2887Ma and 2224–2392Ma. Siltstones of the Etouchang Formation have detrital zircons with a prominent age peak at ~2560Ma and several subordinate peaks at ~2180Ma, ~2100Ma and ~1900Ma. They have high Sc/Th (1.00–7.08), Co/Th (0.13 to 6.31) and εNd(t) (−2.1 to −6.7), significantly different from the Yinmin Formation. The Yinmin Formation is interpreted to deposit during the initial stage of extensional rifting receiving detritus of granites and TTG mainly from uplifted shoulder. The Etouchang Formation more likely formed in a passive margin with sedimentary material largely from cratonic sources. Paleoproterozoic to Mesoproterozoic rift basins in the southwestern Yangtze Block, north Australia and northwestern Laurentia have remarkably similar provenance and tectonic setting in their lower part (1742–1596Ma), but significantly different since the onset of the Etouchang Formation (ca. 1596Ma). Therefore, the southwestern Yangtze Block was likely connected with the north Australia and northwestern Laurentia in Columbia and drifted away from these continents on or before ca. 1596Ma. •The Dongchuan (DC) Group in SW Yangtze Block formed between 1742Ma and 1503Ma.•Remarkably different provenance for the lower and upper DC groups.•Sedimentation of the DC Group was associated with rifting setting to passive margin.•The SW Yangtze Block was connected with N Australia and NW Laurentia in Columbia.•The Yangtze Block drifted away from adjacent continents on or before ca. 1590Ma.
Author Wang, Wei
Zhou, Mei-Fu
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  surname: Wang
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  givenname: Mei-Fu
  surname: Zhou
  fullname: Zhou, Mei-Fu
  email: mfzhou@hku.hk
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Keywords Paleo- to Mesoproterozoic
Supercontinent Columbia
Rift
South China
Yangtze Block
Dongchuan Group
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Snippet The Paleoproterozoic to Mesoproterozoic (1742–1503Ma) Dongchuan Group in the southwestern Yangtze Block is a rift-related sedimentary sequence that was...
The Paleoproterozoic to Mesoproterozoic (1742a1503 Ma) Dongchuan Group in the southwestern Yangtze Block is a rift-related sedimentary sequence that was...
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SubjectTerms Australia
Blocking
Breakup
Continents
Dongchuan Group
Formations
Paleo- to Mesoproterozoic
Rift
Sandstones
Scandium
South China
Supercontinent Columbia
Tectonics
Yangtze Block
Title Provenance and tectonic setting of the Paleo- to Mesoproterozoic Dongchuan Group in the southwestern Yangtze Block, South China: Implication for the breakup of the supercontinent Columbia
URI https://dx.doi.org/10.1016/j.tecto.2013.11.009
https://www.proquest.com/docview/1513474141
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Volume 610
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