Enhanced Surface Imaging of Crustal Deformation
Obtaining Tectonic Force Fields Using GPS Data
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Beschreibung
This book takes an in depth look at a novel methodology for analyzing Global Positioning System (GPS) data to obtain the highest possible resolution surface imaging of tectonic deformation sources without prescribing the nature of either the sources or the subsurface medium. GPS methods are widely used to track the surface expression of crustal deformation at tectonic plate boundaries, and are typically expressed in terms of velocity fields or strain rate fields. Vertical derivatives of horizontal stress (VDoHS) rates at the Earth’s surface can also be derived from GPS velocities, and VDoHS rates provide much higher resolution information about subsurface deformation sources than velocities or strain rates. In particular, VDoHS rates allow for high precision estimates of fault dips, slip rates and locking depths, as well as objective characterization of previously unknown (or hidden) tectonic deformation zones.
Includes supplementary material: sn.pub/extras
Autor*in
A. John Haines
Themen in »Enhanced Surface Imaging of Crustal Deformation«
Bayesian inversion and geodesy GPS analysis and geodesy Geodesy and Crustal deformation Partial differential equations and stress and strain Spatial analysis and geodesy Stress and strain and crustal deformation Tectonic hazards and crustal deformation