AGU23 | 12 December 2023
Monitoring Coastal Subsidence and Stability of GPS and Tide Gauge Stations in Florida's East Coast Using InSAR
Anurag Sharma + Shimon Wdowinski
Coastal communities along Florida's East Coast are highly vulnerable to the impacts of sea-level rise and land subsidence. Therefore, monitoring ground stability is of utmost...
AGU24 | 12 December 2024
Coastal Subsidence in Cape Canaveral, FL, and Surrounding Areas: Shallow Subsidence Induced by Natural and Anthropogenic Processes
Anurag Sharma + Randall W Parkinson + Shimon Wdowinski
Cape Canaveral, located on the east coast of Florida, is renowned for its significant role in space exploration and research. Numerous studies spanning pre-InSAR and current...
Fall Meeting 2022 | 15 December 2022
Coastal Subsidence along Florida’s West Coast with an Emphasis on the Fort Myers and Tampa
Machel H Higgins + Shimon Wdowinski
Globally, the frequency of coastal flood events will increase due to rising sea levels. It has been established that the coast of Florida has experienced an increase in flood...
Fall Meeting 2022 | 15 December 2022
Monitoring Coastal Subsidence in Southeast Florida Using Sentinel-1 InSAR Time Series Observations
Anurag Sharma + Shimon Wdowinski
The US Atlantic coastal communities are highly vulnerable to coastal flooding hazards due to low-lying elevation, large population density, and high economic importance. In...
Earth and Space Science VOL.11 ISSUE 12 | 13 December 2024
InSAR Observations of Construction‐Induced Coastal Subsidence on Miami's Barrier Islands, Florida
Farzaneh Aziz Zanjani + Falk Amelung + Andreas Piter ...
This study utilizes Interferometric Synthetic Aperture Radar (InSAR) to examine subsidence along the coastal strip of the Miami barrier islands from 2016 to 2023. Using Sentinel‐1...