A geodetic plate motion and Global Strain Rate Model
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The Global Strain Rate Model (GSRM v.2.1) as mentioned in this paper is a new global model of plate motions and strain rates in plate boundary zones constrained by horizontal geodetic velocities.Abstract:
We present a new global model of plate motions and strain rates in plate boundary zones constrained by horizontal geodetic velocities. This Global Strain Rate Model (GSRM v.2.1) is a vast improvement over its predecessor both in terms of amount of data input as in an increase in spatial model resolution by factor of ∼2.5 in areas with dense data coverage. We determined 6739 velocities from time series of (mostly) continuous GPS measurements; i.e., by far the largest global velocity solution to date. We transformed 15,772 velocities from 233 (mostly) published studies onto our core solution to obtain 22,511 velocities in the same reference frame. Care is taken to not use velocities from stations (or time periods) that are affected by transient phenomena; i.e., this data set consists of velocities best representing the interseismic plate velocity. About 14% of the Earth is allowed to deform in 145,086 deforming grid cells (0.25° longitude by 0.2° latitude in dimension). The remainder of the Earth's surface is modeled as rigid spherical caps representing 50 tectonic plates. For 36 plates we present new GPS-derived angular velocities. For all the plates that can be compared with the most recent geologic plate motion model, we find that the difference in angular velocity is significant. The rigid-body rotations are used as boundary conditions in the strain rate calculations. The strain rate field is modeled using the Haines and Holt method, which uses splines to obtain an self-consistent interpolated velocity gradient tensor field, from which strain rates, vorticity rates, and expected velocities are derived. We also present expected faulting orientations in areas with significant vorticity, and update the no-net rotation reference frame associated with our global velocity gradient field. Finally, we present a global map of recurrence times for Mw=7.5 characteristic earthquakes.read more
Citations
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On the application of Monte Carlo singular spectrum analysis to GPS position time series
TL;DR: An algorithm is proposed for MCSSA that is not limited to the AR(1) noise hypothesis, which estimates the noise model parameters using LS-VCE and generates the surrogate data using the Cholesky decomposition and is adapted to GPS position time series where the underlying noise is a combination of white noise and flicker noise.
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The Role of Multiple Trapped Oceanic Basins in Continental Growth: Seismic Evidence From the Southern Altaids
Hassan, Hasan,Tuomas Peltonen +1 more
TL;DR: In this paper , the authors used a high-density passive-source seismic approach to image the whole-crust architecture of the juvenile continent in southern Altaids and found that a large number of ocean basins may be trapped during supercontinent formation, and they play a critical role in continental material preservation and continental episodic growth.
Large‐Scale Interseismic Strain Mapping of the NE Tibetan Plateau From Sentinel‐1 Interferometry
TL;DR: In this article , the first ∼1 km resolution strain rate field for this tectonically active region was derived from the Sentinel-1 data acquired between 2014 and 2019 over the northeast Tibetan Plateau, and developed new methods to derive east and vertical velocities with ∼100 m resolution and ∼1 mm/yr accuracy across an area of 440,000 km2.
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Afterslip Moment Scaling and Variability From a Global Compilation of Estimates
TL;DR: In this paper , the authors compile 148 afterslip studies following 53 Mw6.0-9.1 earthquakes, and formally analyze a subset of 88 well-constrained kinematic models.
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Three Mw ≥ 4.7 Earthquakes Within the Changning (China) Shale Gas Field Ruptured Shallow Faults Intersecting With Hydraulic Fracturing Wells
TL;DR: In this paper , the authors use Sentinel-1 synthetic aperture radar data to measure surface deformation triggered by the three events and conduct geodetic inversions to characterize their rupture models, showing that all three earthquakes mainly ruptured sedimentary formations above the shale gas bed, in the upper 3 km of the crust.
References
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