INSAR TIME SERIES OF LAND UPLIFT AND SUBSIDENCE IN THE SANTA CLARA VALLEY

We invert 115 differential interferograms derived from 47 synthetic aperture radar (SAR) scenes for a time-dependent deformation signal in the Santa Clara Valley, California. The time-dependent deformation is calculated through a linear inversion that solves for the incremental range-change between synthetic aperture radar (SAR) scene acquisitions. A nonlinear range-change signal is extracted from the ERS InSAR data without imposing a model of the expected deformation. Cumulative land uplift is observed during the period from 1992 to 2000 with a maximum uplift of 41±18 mm centered north of Sunnyvale. Uplift is also observed east of San Jose. Seasonal uplift and subsidence dominates west of the Silver Creek fault near San Jose with a maximum peak-to-trough amplitude of ~35 mm. The pattern of seasonal versus long-term uplift provides constraints on the spatial and temporal characteristics of water bearing units within the aquifer. The Silver Creek fault partitions the uplift behavior of the basin, suggesting that it acts as a hydrologic barrier to ground water flow. While no tectonic creep is observed along the fault, the development of a low permeability barrier that bisects the alluvium suggests that the fault has been active since the deposition of Quaternary units.