Intraslab Earthquakes: Dehydration of the Cascadia Slab

Intraslab Earthquakes: Dehydration of the Cascadia Slab

We simultaneously invert travel times of refracted and wide-angle reflected waves for three-dimensional compressional-wave velocity structure, earthquake locations, and reflector geometry in northwest Washington state. The reflector, interpreted to be the crust-mantle boundary (Moho) of the subducti...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2003-11, Vol.302 (5648), p.1197-1200
Hauptverfasser: Preston, Leiph A., Creager, Kenneth C., Crosson, Robert S., Brocher, Thomas M., Trehu, Anne M.
Format: Artikel
Sprache:eng
Schlagworte:
Climate change
Crystals
Dehydration
Earth sciences
Earth, ocean, space
Earthquakes
Earthquakes, seismology
Exact sciences and technology
Fossils
Geometric Concepts
Geometry
Geophysics
Internal geophysics
Mantle
Marine
Motion
Oceanic crust
Plate tectonics
Reflectors
Sea surface temperature
Silica
Surface temperature
Tectonics. Structural geology. Plate tectonics
Temperature gradients
Travel
Travel time
Washington
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Beschreibung
Zusammenfassung:We simultaneously invert travel times of refracted and wide-angle reflected waves for three-dimensional compressional-wave velocity structure, earthquake locations, and reflector geometry in northwest Washington state. The reflector, interpreted to be the crust-mantle boundary (Moho) of the subducting Juan de Fuca plate, separates intraslab earthquakes into two groups, permitting a new understanding of the origins of intraslab earthquakes in Cascadia. Earthquakes up-dip of the Moho's 45-kilometer depth contour occur below the reflector, in the subducted oceanic mantle, consistent with serpentinite dehydration; earthquakes located down-dip occur primarily within the subducted crust, consistent with the basalt-to-eclogite transformation.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.1090751