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InSAR Reveals Complex Surface Deformation Patterns Over an 80,000 km<sup>2</sup>Oil‐Producing Region in the Permian Basin

Scott Staniewicz, Jingyi Chen, Hunjoo P. Lee, Jon E. Olson, Alexandros Savvaidis, R. C. Reedy, Caroline Breton, Ellen M. Rathje, Peter Hennings

2020Geophysical Research Letters61 citationsDOIOpen Access PDF

Abstract

Abstract Here we used Sentinel‐1 interferometric synthetic aperture radar (InSAR) data acquired between November 2014 to January 2019 to map how the basin's surface has deformed in response to fluid injection and extraction. While our stacking approach has low complexity, its accuracy increases with the Sentinel‐1 data volume. With an automated outlier removal algorithm, we achieved ∼2 mm/year accuracy across the basin in the presence of up to ±15 cm tropospheric noise. We observed numerous subsidence and uplift features near active production and disposal wells, with the maximum deformation rate occurring in 2018 when production peaked. The most important deformation signatures are linear patterns that extend tens of kilometers near Pecos, TX, where a cluster of increased seismic events was cataloged by the Texas Seismological Network (TexNet). Our elastic modeling results demonstrate that fluid extraction and dip slip along normal faults are potential causes for the observed seismicity and deformation patterns.

Topics & Concepts

GeologyInterferometric synthetic aperture radarInduced seismicitySeismologyStructural basinSynthetic aperture radarSlip (aerodynamics)Deformation (meteorology)GeodesyRemote sensingGeomorphologyPhysicsOceanographyThermodynamicsSynthetic Aperture Radar (SAR) Applications and Techniquesearthquake and tectonic studiesGeophysical Methods and Applications