Cenozoic evolution of the central Myanmar drainage system: insights from sediment provenance in the Minbu Sub-Basin

Cenozoic evolution of the central Myanmar drainage system: insights from sediment provenance in the Minbu Sub-Basin

Located at the southern edge of the eastern Himalayan syntaxis, the Central Myanmar Basin (CMB) is divided into several Tertiary sub‐basins that have been almost continuously filled since the Indo‐Asia collision. They are currently drained by the Irrawaddy River, which flows down the eastern Tibetan...

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Bibliographic Details
Published in:Basin research Vol. 28; no. 2; pp. 237 - 251
Main Authors: Licht, Alexis, Reisberg, Laurie, France-Lanord, Christian, Naing Soe, Aung, Jaeger, Jean-Jacques
Format: Journal Article
Language:English
Published: Oxford Blackwell Publishing Ltd 01-03-2016
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Subjects:
Earth Sciences
Freshwater
Geochemistry
Isotopes
Provenance
Sciences of the Universe
Sediments
Stratigraphy
Trace elements
Trends
China, People's Rep., Xizang, Tibetan Plateau
Myanmar, Irrawaddy R
China, People's Rep., Xizang
ISW, Myanmar
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Summary:Located at the southern edge of the eastern Himalayan syntaxis, the Central Myanmar Basin (CMB) is divided into several Tertiary sub‐basins that have been almost continuously filled since the Indo‐Asia collision. They are currently drained by the Irrawaddy River, which flows down the eastern Tibetan Plateau and the Sino‐Burman Ranges. Tracing sediment provenance from the CMB is thus critical for reconstructing the past denudation of the Himalayan‐Tibetan orogen; it is especially relevant since a popular drainage scenario involves the capture of the Tsangpo drainage system in Tibet by a precursor to the Irrawaddy River. Here, we document the provenance of sediment samples from the Minbu Sub‐Basin at the southern edge of the CMB, which is traversed by the modern stream of the Irrawaddy River. Samples ranging in age from middle Eocene to Pleistocene were investigated using Nd isotopes, trace element geochemistry and sandstone modal compositions. Our data provide no evidence of a dramatic provenance shift; however, sandstone petrography, trace element ratios and isotopic values display long‐term trends indicating a gradual decrease of the volcanic input and its replacement by a dominant supply from the Burmese basement. These trends are interpreted to reflect the progressive denudation of the Andean‐type volcanic arc that extended onto the Burmese margin, along the flank of the modern Sino‐Burman Ranges, where most of the post‐collisional deformation of central Myanmar is located. Though our results do not exclude an ephemeral or diluted contribution from a past Tsangpo‐Irrawaddy connection, sedimentation rates suggest that this hypothesis is unlikely before the development of a stable Tsangpo‐Brahmaputra River in the Miocene. These results thus suggest that the central Myanmar drainage basin has remained restricted to the Sino‐Burman Ranges since the beginning of the India‐Asia collision.
Bibliography:CNRS UMR 7262
ark:/67375/WNG-4QFBX4NV-P
istex:B9739D267EE4F17ED906E3C2FF3ACA63332B08A3
Ecole Polytechnique
Ministry of Culture of the Republic of the Union of Myanmar
ArticleID:BRE12108
ANR-09-BLAN-0238-02 Program
University of Poitiers
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:0950-091X
1365-2117
DOI:10.1111/bre.12108