A large refined catalog of earthquake relocations and focal mechanisms for the Island of Hawai'i and its seismotectonic implications

A large refined catalog of earthquake relocations and focal mechanisms for the Island of Hawai'i and its seismotectonic implications

We present high‐quality focal mechanisms based on a refined earthquake location catalog for the Island of Hawai'i, focusing on Mauna Loa and Kīlauea volcanoes. The relocation catalog is based on first‐arrival times and waveform data of both compressional and shear waves for about 180,000 events...

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Bibliographic Details
Published in:Journal of geophysical research. Solid earth Vol. 121; no. 7; pp. 5031 - 5048
Main Authors: Lin, Guoqing, Okubo, Paul G.
Format: Journal Article
Language:English
Published: Washington Blackwell Publishing Ltd 01-07-2016
Subjects:
Amplitude
Area
Calderas
Cluster analysis
Clusters
Constraints
Correlation
Cross correlation
Dimensional analysis
earthquake relocation
Earthquakes
Fault lines
Faults
Fields
focal mechanism
Geological faults
Geophysics
Hawaii
Islands
Kilauea
Locations (working)
Mapping
Mathematical models
Mauna Loa
Methods
Movement
Parameters
Ratios
Ray tracing
Relocation
S waves
Seismic activity
Seismic zones
Shear
Slip
Solutions
Strain
Stresses
Three dimensional models
Velocity
Volcanic activity
Volcanoes
Wave amplitude
Waveforms
Kilauea
USA, Hawaii, Hawaii I., Kau, Kilauea Volcano
ISE, USA, Hawaii
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Summary:We present high‐quality focal mechanisms based on a refined earthquake location catalog for the Island of Hawai'i, focusing on Mauna Loa and Kīlauea volcanoes. The relocation catalog is based on first‐arrival times and waveform data of both compressional and shear waves for about 180,000 events on and near the Island of Hawai'i between 1986 and 2009 recorded by the seismic stations at the Hawaiian Volcano Observatory. We relocate all the earthquakes by applying ray tracing through an existing three‐dimensional velocity model, similar event cluster analysis, and a differential‐time relocation method. The resulting location catalog represents an expansion of previous relocation studies, covering a longer time period and consisting of more events with well‐constrained absolute locations. The focal mechanisms are obtained based on the compressional‐wave first‐motion polarities and compressional‐to‐shear wave amplitude ratios by applying the HASH program to the waveform cross correlation relocated earthquakes. Overall, the good‐quality (defined by the HASH parameters) focal solutions are dominated by normal faulting in our study area, especially in the active Ka'ōiki and Hīlea seismic zones. Kīlauea caldera is characterized by a mixture of approximately equal numbers of normal, strike‐slip, and reverse faults, whereas its south flank has slightly fewer strike‐slip events. Our relocation and focal mechanism results will be useful for mapping the seismic stress and strain fields and for understanding the seismic‐volcanic‐tectonic relationships within the magmatic systems. Key Points The active seismic zones are dominated by normal faulting in Hawaii Kilauea caldera is characterized by a mixture of approximately equal numbers of normal, strike‐slip, and reverse faults A new earthquake relocation and focal mechanism catalog is made available
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ISSN:2169-9313
2169-9356
DOI:10.1002/2016JB013042