Abstract: Major and trace element compositions of Neogene sandstones and mudrocks from the Shahbajpur-1 (SB-1) well, Hatia trough, Bengal basin, Bangladesh were determined to examine their geochemical characteristics and provenance, in relation to Himalayan uplift, sediment dispersal, and correlation of coeval successions in a basinal context. Major and trace element abundances in the SB-1 succession vary vertically, with SiO2 content decreasing and Al2O3 increasing from the older (Surma and Tipam Groups) to younger (Dupi Tila Group) sediments. Marked geochemical fractionation between sandstones and mudrocks reflects advanced hydrodynamic sorting, and relative enrichment of several elements (e.g., TiO2, Zr, Ce, Th, Cr) suggests sporadic hea...
International audienceRecent IODP Expedition 354 in the Bengal fan [1] generated a comprehensive rec...
International audiencePetrographic, major, trace, and rare earth element compositions of quartz aren...
A knowledge of Himalayan erosion history is critical to understanding crustal deformation processes,...
Twenty six sandstone samples from six wells penetrating the Miocene Surma Group in the Bengal Basin,...
This study deals with petrography and provenance of the Neogene reservoir sandstones encountered in ...
International audienceThe Bangladesh lowlands are traversed by the largest sediment flux on the plan...
Equivalent to the Lower Siwalik Group, the Late Miocene Chinji Formation in Pakistan consists of int...
Abstract The Surma basin is a part of the Bengal Basin situated in northeastern Bangladesh. The pres...
Sedimentation of the Paleogene and Neogene belts in the Indo-Burma Range (IBR) involved a complex te...
International audienceIODP Expedition 354 in the Bengal fan [1] generated a comprehensive record of ...
The Cenozoic sedimentary succession of Bangladesh provides an archive of Himalayan erosion. However,...
The Cenozoic sedimentary succession of Bangladesh provides an archive of Himalayan erosion. However,...
Early Miocene to Quaternary sediments drilled from the Bengal Fan are divided into six zones by moda...
Nine gas fields and two coal fields of Bengal Basin, Bangladesh are studied in the current research ...
The Cenozoic sedimentary succession of Bangladesh provides an archive of Himalayan erosion. However,...
International audienceRecent IODP Expedition 354 in the Bengal fan [1] generated a comprehensive rec...
International audiencePetrographic, major, trace, and rare earth element compositions of quartz aren...
A knowledge of Himalayan erosion history is critical to understanding crustal deformation processes,...
Twenty six sandstone samples from six wells penetrating the Miocene Surma Group in the Bengal Basin,...
This study deals with petrography and provenance of the Neogene reservoir sandstones encountered in ...
International audienceThe Bangladesh lowlands are traversed by the largest sediment flux on the plan...
Equivalent to the Lower Siwalik Group, the Late Miocene Chinji Formation in Pakistan consists of int...
Abstract The Surma basin is a part of the Bengal Basin situated in northeastern Bangladesh. The pres...
Sedimentation of the Paleogene and Neogene belts in the Indo-Burma Range (IBR) involved a complex te...
International audienceIODP Expedition 354 in the Bengal fan [1] generated a comprehensive record of ...
The Cenozoic sedimentary succession of Bangladesh provides an archive of Himalayan erosion. However,...
The Cenozoic sedimentary succession of Bangladesh provides an archive of Himalayan erosion. However,...
Early Miocene to Quaternary sediments drilled from the Bengal Fan are divided into six zones by moda...
Nine gas fields and two coal fields of Bengal Basin, Bangladesh are studied in the current research ...
The Cenozoic sedimentary succession of Bangladesh provides an archive of Himalayan erosion. However,...
International audienceRecent IODP Expedition 354 in the Bengal fan [1] generated a comprehensive rec...
International audiencePetrographic, major, trace, and rare earth element compositions of quartz aren...
A knowledge of Himalayan erosion history is critical to understanding crustal deformation processes,...