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Results for “"Austin J. Chadwick"”

4 results

Predicting Subsurface Architecture From Surface Channel Networks in the Bengal Delta

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Zhongyuan Xu, Mahfuzur R. Khan, Kazi Matin Ahmed, Anwar Zahid et al.

Journal: Journal of Geophysical Research Earth SurfaceYear: 2023Citations: 3

Abstract Groundwater is the primary source of water in the Bengal Delta but contamination threatens this vital resource. In deltaic environments, heterogeneous sedimentary architecture controls groundwater flow; therefore, characterizing subsurface structure is a critical step in predicting groundwa...

Physical SciencesEnvironmental ScienceEnvironmental EngineeringOpen Access
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Predicting land subsidence and cascading flood hazards on deltas in the twenty-first century

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Austin J. Chadwick, Michael S. Steckler, Carol Wilson, Steven L. Goodbred et al.

Year: 2026

Densely populated coastal deltas worldwide face cascading flood hazards associated with sea-level rise, storm surges, dwindling sediment supplies, and land subsidence. One of the greatest hurdles to hazard prediction stems from this last component—land subsidence—which can vary drastically in space ...

Physical SciencesEarth and Planetary SciencesEarth-Surface ProcessesOpen Access
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High-resolution mapping of coastal subsidence in the Ganges-Brahmaputra Delta using advanced InSAR and ground observations

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Lin Shen, Austin J. Chadwick, M. S. Steckler, K. F. Tiampo et al.

Year: 2025

Coastal regions face a cascading sustainability crisis due to rising sea levels, stronger storms, land loss, salinization, and ecosystem collapse. These risks are particularly severe in densely populated lowland river deltas, which are highly sensitive to effective sea-level rise that combines eusta...

Physical SciencesEngineeringAerospace EngineeringOpen Access
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Estimating subsidence, sedimentation and elevation change in coastal Bangladesh using InSAR and surface measurements

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M. S. Steckler, Lin Shen, Sultana, Sumya, Austin J. Chadwick et al.

Journal: HAL (Le Centre pour la Communication Scientifique Directe)Year: 2024

International audience

Physical SciencesEngineeringAerospace Engineering
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