The Relationship between Sequence Stratigraphy and Groundwater of Quaternary Sediments in Relation to Global Sea-level Change in the Downstream Red River Delta Area

The Relationship between Sequence Stratigraphy and Groundwater of Quaternary Sediments in Relation to Global Sea-level Change in the Downstream Red River Delta Area

The study of the distribution law and origin of groundwater in Quaternary sediments downstream of the Red River Delta is approached in the direction of research on sequence stratigraphy and the distribution law of lithofacies according to space and time. However, the distribution law of lithofacies...

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Bibliographic Details
Published in:Lithology and Mineral Resources Vol. 57; no. 5; pp. 449 - 472
Main Authors: Tran Nghi, Hung, Do Tien, Thu, Trinh Hoai, Shakirov, Renat, Syrbu, Nadezhda, Toan, Ngo Quang, Khien, Hoang Anh, Huong, Tran Thi Thuy, Lee, Natalia, Thanh, Dinh Xuan, Nhan, Tran Thi Thanh, Trang, Nguyen Thi Huyen, Thao, Nguyen Thi Phuong, Dung, Tran Thi, Dien, Tran Ngoc
Format: Journal Article
Language:English
Published: Moscow Pleiades Publishing 01-10-2022
Springer Nature B.V
Subjects:
Age
Aquifers
Distribution
Downstream
Dune sand
Earth and Environmental Science
Earth Sciences
Freshwater
Gravel
Groundwater
Holocene
Inland water environment
Lagoons
Lithofacies
Mineral Resources
Mineralogy
Mud
Pleistocene
Quaternary
Rivers
Sand
Sand bars
Sea level
Sea level changes
Sediment
Sedimentary facies
Sedimentology
Sediments
Sequence stratigraphy
Sequencing
Spatial distribution
Stratigraphy
Swamps
Tectonics
Red River Delta
Sequence stratigraphy
sedimentary systems tract
lithofacies
aquifers
aquiclude
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Summary:The study of the distribution law and origin of groundwater in Quaternary sediments downstream of the Red River Delta is approached in the direction of research on sequence stratigraphy and the distribution law of lithofacies according to space and time. However, the distribution law of lithofacies and groundwater depends on global sea-level changes and tectonic activities as the two most important reasons. Quaternary sediments of the Red River delta downstream have 5 sediment cycles corresponding to 5 sequences: (1) sequence 1 with Early Pleistocene age (Sq 1 – ); (2) sequence 2 with early Middle Pleistocene age (Sq 2 – ); (3) sequence 3 with late middle Pleistocene age (Sq 3 – ); (4) sequence 4 with early Pleistocene age (Sq 4 – ); (5) sequence 5 with late Pleistocene–Holocene age (Sq 5 – –Q 2 ). Each sequence is composed of three sedimentary systems tracts. The lowstand systems tract (LST) is characterized by a lowstand alluvial muddy sand facies complex that acts as a primary freshwater aquifer (S m arLST). The transgressive systems tract (TST) is characterized by a coastal swamp sand mud facies (M s amtTST) and a maximum transgression bay-lagoon mud facies (MmtTST) acting as an aquifuge. The highstand systems tract (HST) is characterized by sand bar facies (SamhHST) and delta plain sandy mud facies (M s amhHST). Thus, vertically Pleistocene sediments have 5 aquifers, in which each aquifer is constituted by the superposition of two successive facies complex: (1) upper part: lowstand alluvial gravelly sand facies complex (LST) and (2) lower part: highstand dune sand bar facies complex (SarLST/SamhHST). The spatial distribution of freshwater aquifers in 3 provinces Northwest Thai Binh, Ninh Binh—southeast Nam Dinh, and northwest Nam Dinh demonstrate the absence of shallow marine-bay mud facies.
ISSN:0024-4902
1608-3229
1573-8892
DOI:10.1134/S002449022205008X