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Land Subsidence Monitoring using InSAR Technique in the Southwestern Region of Bangladesh
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1  Department of Disaster Science and Climate Resilience, University of Dhaka, Dhaka 1000, Bangladesh
Academic Editor: Wataru Takeuchi

Abstract:

Deltas like the Ganges-Brahmaputra Delta (GBD) experience significant land subsidence due to overlaying load, consolidation, sediment compaction, regional tectonics, and human activity. The southwestern region of Bangladesh, marked by its low-lying floodplain with compressible sediments, experiences significant land subsidence. However, accurate assessments for these areas are very scarce, often relying on localized measurements rather than comprehensive data. This study employed InSAR (Interferometric Synthetic Aperture Radar) analysis, spanning from 2014 to 2022, to effectively measure land subsidence, and visualize it spatially. In the study area, subsidence rates were found to be ranging from 3 to 20 mm/year, with most areas experiencing 3-10 mm/year. While some areas show higher rates of 10-13 mm/year, very few exceeded 14 mm/year. The average subsidence rate was 5.98 mm/year, demonstrating significant spatial variability across the region. The findings were validated based on existing Global navigation satellite system (GNSS) data points, affirming their reliability. Despite minor discrepancies with other measurements at specific points, the overall results align well with existing data. This comprehensive InSAR analysis provides a detailed assessment of land subsidence in the southwestern region of Bangladesh, highlighting significant spatial variability and offering valuable insights for future coastal development and risk mitigation strategies.

Keywords: Ganges-Brahmaputra Delta; land subsidence; InSAR; subsidence rate, GNSS; Sentinel-1.
Comments on this paper
Judy Newman
I think InSAR offers a high level of precision in measuring ground deformation, allowing for accurate monitoring of land subsidence over large areas. With satellite-based SAR data, it is possible to monitor land subsidence over a wide area, providing a regional-scale view of ground movements.
By generating time-series measurements, InSAR allows for the analysis of subsidence rates and patterns over time, enabling the identification of long-term trends and potential triggers. InSAR is a non-destructive technique that doesn't require physical contact with the ground, making it suitable for monitoring subsidence and geometry dash scratch in areas that may be difficult to access or have hazardous conditions.




 
 
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