4.5 Article

Unravelling depositional setting, age and provenance of the Simlipal volcano-sedimentary complex, Singhbhum craton: Evidence for Hadean crust and Mesoarchean marginal marine sedimentation

Journal

PRECAMBRIAN RESEARCH
Volume 354, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.precamres.2020.106038

Keywords

Singhbhum Craton; Detrital zircon; Hadean zircon; Archean sandstone; Shallow marine sedimentation; Simlipal volcano-sedimentary succession

Funding

  1. Australian Research Council [FL160100168]
  2. Australian Research Council [FL160100168] Funding Source: Australian Research Council

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The researchers conducted a detailed study of the Simlipal volcano-sedimentary succession in the Singhbhum craton of eastern India, reporting the first detrital zircon U-Pb ages from this succession. The lithostratigraphic analysis and petrographic study indicated deposition in a tidally-influenced marginal marine setting, with detrital zircon data supporting a maximum depositional age around 3.08 Ga and revealing source ages peaks. The study also documented the involvement of Hadean crust and the tectonothermal imprint of a late Mesoproterozoic to early Neoproterozoic orogeny on the Singhbhum craton.
The Singhbhum craton of eastern India preserves an extensive record of basin formation spanning the Paleoarchean to Neoarchean. Although spatially extensive and well exposed, the absolute age, depositional environment, and regional correlations of many of the purportedly Archean basins of this craton remain poorly resolved. We present a detailed lithostratigraphic analysis of siliciclastic strata in the (lower) Simlipal volcano-sedimentary succession and report the first detrital zircon U-Pb ages from this succession. The studied section is dominated by fine- to medium-grained, quartz-rich sandstones, which preserve herringbone stratification, tidal bundles, soft sediment deformation structures along with ubiquitous trough cross-stratification. Petrographic study confirms these sandstones as quartz arenites and reveal their high textural and mineralogical maturity. These features are consistent with deposition of the lower siliciclastic succession of the Simlipal volcano-sedimentary complex within a tidally-influenced marginal marine setting. The new detrital zircon data support a similar to 3.08 Ga maximum depositional age for the succession and reveal a provenance with age peaks at ca. 3.55-3.45 Ga, 3.38-3.24 Ga, and 3.10-3.08 Ga. These ages likely correspond to local basement sources including the Older Metamorphic Tonalite Gneisses, the Singhbhum Granitoid Complex, and the Mayurbhanj Granite Suite. Two detrital zircons from our dataset have concordant ages of similar to 4.02 Ga and similar to 4.03 Ga. They represent the first Hadean detrital zircons recovered from any Archean strata in the Singhbhum craton, documenting the involvement of Hadean crust in the early development of the craton. The detrital zircons show prominent Pb-loss at similar to 1.2-1.0 Ga that exemplifies the tectonothermal imprint of a late Mesoproterozoic to early Neoproterozoic orogeny (likely related to the assembly of Rodinia) on the Singhbhum craton. Our findings further support the interpretation that the lower siliciclastic strata in the Simlipal succession are the lateral facies equivalents of alluvial fan deposits at the base of the Dhanjori Formation, exposed to the north.

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