Signature of a paleogene submarine-fan from the Jenam Formation,Barail Group,Assam-Arakan orogen,northeastern India |
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Authors: | Ananya Biswas Bhabani Prasad Mukhopadhyay |
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Institution: | 1.Department of Geology,Bengal Engineering & Science University,Shibpur,India |
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Abstract: | Geological domains in northeastern India evolved though time after the rupture of the Gondwanaland. Collision of the Indian
and the Burmese plates took place during the middle part of Cretaceous. Evolution of the Paleogene Barail trough, Neogene
Surma and Tipam Groups took place gradually. The Barail trough originated at the active margin of the Indo-Burmese plate convergence.
Previously, the Barail sedimentary wedge was interpreted to have been deposited in a deltaic to shallow-marine environment.
Latter studies have proposed a new depositional model. The Barail Group, a part of the Assam-Arakan Orogen comprises the lowermost
Laisong Formation, middle Jenam and upper Rinji Formation. Most of the Paleogene strata of the Barail Group carry imprints
of a deep-water submarine fan near an active subduction zone. A deep-water proximal- to mid-fan depositional setting has been
ascribed to the lower Laisong strata. Facies analysis of the extensive exposures of the Jenam Formation, near the Jenamghat,
Assam, have enabled a detailed reconstruction of a proximal to mid-part of a submarine fan under an overall influence of turbidity
currents and debris flow, ultimately evolving into turbidity currents. The Jenam sedimentary wedge bears tell-tale preservation
of olistostromes (chaotic facies) with abundant volcaniclastics and basic rock fragments, massive sandstones, conglomeratic
sandstone to sandstone-siltstone-shale and sandstone-siltstone-mudstones with profuse turbidites. Facies attributes amply
signal the inherent instability of the Barail trough owing to its location near an active subduction zone. The Jenam suite
of rocks containing a strong impress of volcanogenic materials along with quartzo-feldspathic rocks were mixed up by turbidity
currents and shed into the submarine environment as the Jenam deep-water turbidites. |
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