Mon Oct 13, F. Flechtner
• Sorted by Date • Sorted by Last Name of First Author •
Ouyang, Liu, Zhao, Zhifang, Zhou, Dingyi, Cao, Jingyao, Qin, Jingyi, Cao, Yifan, and He, Yang, 2024. Study on the Relationship between Groundwater and Land Subsidence in Bangladesh Combining GRACE and InSAR. Remote Sensing, 16(19):3715, doi:10.3390/rs16193715.
• from the NASA Astrophysics Data System • by the DOI System •
@ARTICLE{2024RemS...16.3715O,
author = {{Ouyang}, Liu and {Zhao}, Zhifang and {Zhou}, Dingyi and {Cao}, Jingyao and {Qin}, Jingyi and {Cao}, Yifan and {He}, Yang},
title = "{Study on the Relationship between Groundwater and Land Subsidence in Bangladesh Combining GRACE and InSAR}",
journal = {Remote Sensing},
keywords = {GRACE, InSAR, groundwater, land subsidence, LiCSBAS, Bangladesh},
year = 2024,
month = oct,
volume = {16},
number = {19},
eid = {3715},
pages = {3715},
abstract = "{Due to a heavy reliance on groundwater, Bangladesh is experiencing a
severe decline in groundwater storage, with some areas even
facing land subsidence. This study aims to investigate the
relationship between groundwater storage changes and land
subsidence in Bangladesh, utilizing a combination of GRACE and
InSAR technologies. To clarify this relationship from a macro
perspective, the study employs GRACE data merged with GLDAS to
analyze changes in groundwater storage and SBAS-InSAR technology
to assess land subsidence. The Dynamic Time Warping (DTW) method
calculates the similarity between groundwater storage and land
subsidence time series, incorporating precipitation and land
cover types into the data analysis. The findings reveal the
following: (1) Groundwater storage in Bangladesh is declining at
an average rate of ‑5.55 mm/year, with the most significant
declines occurring in Rangpur, Mymensingh, and Rajshahi.
Notably, subsidence areas closely match regions with deeper
groundwater levels; (2) The similarity coefficient between the
time series of groundwater storage and land subsidence changes
exceeds 0.85. Additionally, land subsidence in different regions
shows an average lagged response of 2 to 6 months to changes in
groundwater storage. This study confirms a connection between
groundwater dynamics and land subsidence in Bangladesh,
providing essential knowledge and theoretical support for
further research.}",
doi = {10.3390/rs16193715},
adsurl = {https://ui.adsabs.harvard.edu/abs/2024RemS...16.3715O},
adsnote = {Provided by the SAO/NASA Astrophysics Data System}
}
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