Comparative study of tectonic tremor locations: Characterization of slow earthquakes in Guerrero, Mexico

Comparative study of tectonic tremor locations: Characterization of slow earthquakes in Guerrero, Mexico

Deep tectonic tremor in Guerrero, Mexico, has been observed using dense temporal seismic networks (i.e., the Meso‐American Subduction Experiment and Guerrero Gap Experiment (G‐GAP) arrays) during two different time periods. We apply a set of seismic waveform analysis methods to these data sets to co...

Full description

Saved in:
Bibliographic Details
Published in:Journal of geophysical research. Solid earth Vol. 121; no. 7; pp. 5136 - 5151
Main Authors: Maury, J., Ide, S., Cruz‐Atienza, V. M., Kostoglodov, V., González‐Molina, G., Pérez‐Campos, X.
Format: Journal Article
Language:English
Published: Washington Blackwell Publishing Ltd 01-07-2016
Subjects:
Algorithms
Arrays
Bursting
Bursts
Catalogues
Comparative analysis
Comparative studies
Continental crust
Convergence
Datasets
Direction
Earthquakes
Energy
Filtering
Filtration
Geophysics
Identification
Locations (working)
Low frequency
Mathematical analysis
Mathematical models
Methods
moment tensor inversion
Networks
Patches (structures)
Plate convergence
Plate motion
Plate tectonics
Plates (tectonics)
Pressure
Records
Searching
Seismic activity
Seismic analysis
Seismic phenomena
Seismic waves
Seismology
Shear
Slip
slow earthquakes
Subduction
Subduction (geology)
tectonic tremor
Tensors
Tremors
Very Low Frequencies
Mexico
Mexico, Guerrero
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Deep tectonic tremor in Guerrero, Mexico, has been observed using dense temporal seismic networks (i.e., the Meso‐American Subduction Experiment and Guerrero Gap Experiment (G‐GAP) arrays) during two different time periods. We apply a set of seismic waveform analysis methods to these data sets to constrain the locations of tremors and determine the associated moment tensors. First we detect and locate the tremors. Next, very low frequency (VLF) signals are identified by stacking waveform data during tremor bursts, and their moment tensors are determined. Finally, to better investigate the link between tremors and VLF earthquakes, we detect VLF events using a matched filtering algorithm to search continuous seismic records. None of the 11 VLF events detected by this method occurred in the absence of tremor bursts suggesting they are indeed part of the same phenomena. Unlike previous investigations, our results for the G‐GAP period reveal that downdip tremor activity (i.e., in the so‐called “sweet spot”) is segmented into two patches separated by 40 km in the along‐trench direction, indicating possible variations in the geometry of the plate interface and/or slab effective pressure. Moment tensors of VLF signals are consistent with shear slip on the near‐horizontal plate interface, but source depths are about 5 km deeper than the established plate interface. The slip directions of the VLF events are slightly (~10°) counterclockwise of the plate convergence direction, indicating that strain energy promoting left‐lateral strike‐slip motion may accumulate in the continental crust during the interseismic period. Key Points Two seismic networks provide tremor catalogs with different resolutions Moment tensors of slow earthquakes in Guerrero are consistent with plate motion Matched filtering detected 11 VLF events accompanying tremors
Bibliography:ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:2169-9313
2169-9356
DOI:10.1002/2016JB013027