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journal article May 01, 2018

Quantifying Ground Deformation in the Los Angeles and Santa Ana Coastal Basins Due to Groundwater Withdrawal

Bryan Riel ORCID Mark Simons ORCID Daniel Ponti ORCID Piyush Agram Romain Jolivet ORCID
Water Resources Research Vol. 54 No. 5 pp. 3557-3582 · American Geophysical Union (AGU)
View at Publisher Save 10.1029/2017wr021978
Abstract
AbstractWe investigate complex surface deformation within the Los Angeles and Santa Ana Coastal Basins due to groundwater withdrawal and subsequent aquifer compaction/expansion. We analyze an 18 year interferometric synthetic aperture radar (InSAR) time series of 881 interferograms in conjunction with global positioning system (GPS) data within the groundwater basins. The large data set required the development of a distributed time series analysis framework able to automatically decompose both the InSAR and GPS time series into short‐term and long‐term signals. We find that short‐term, seasonal oscillations of ground elevations due to annual groundwater withdrawal and recharge are unsteady due to changes in seasonal withdrawal by major water districts. The spatial pattern of seasonal ground deformation near the center of the basin corresponds to a diffusion process with peak deformation occurring at locations with highest groundwater production. Long‐term signals occur over broader areas and are ultimately caused by long‐term changes in groundwater production. Comparison of the geodetic data with hydraulic head data from major water districts suggests that different regions of the groundwater system are responsible for different temporal components in the observed ground deformation. Short‐term, seasonal ground deformation is caused by compaction of shallower aquifers used for the majority of groundwater production whereas long‐term ground deformation is correlated with delayed compaction of deeper aquifers and potential compressible clay layers. These results demonstrate the potential for geodetic analysis to be an important tool for groundwater management to maintain sustainable pumping practices.
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Metrics
74
Citations
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References
Details
Published
May 01, 2018
Vol/Issue
54(5)
Pages
3557-3582
License
View
Authors
B
Bryan Riel

Jet Propulsion Laboratory Pasadena CA USA; Seismological Laboratory California Institute of Technology Pasadena CA USA

M
Mark Simons

Seismological Laboratory California Institute of Technology Pasadena CA USA

D
Daniel Ponti

United States Geological Survey Menlo Park CA USA

P
Piyush Agram

Jet Propulsion Laboratory Pasadena CA USA

R
Romain Jolivet

École Normale Supérieure de Paris Paris France

Cite This Article
Bryan Riel, Mark Simons, Daniel Ponti, et al. (2018). Quantifying Ground Deformation in the Los Angeles and Santa Ana Coastal Basins Due to Groundwater Withdrawal. Water Resources Research, 54(5), 3557-3582. https://doi.org/10.1029/2017wr021978
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