Quantitative Relationships Between Basalt Geochemistry, Shear Wave Velocity, and Asthenospheric Temperature Beneath Western North America

Quantitative Relationships Between Basalt Geochemistry, Shear Wave Velocity, and Asthenospheric Temperature Beneath Western North America

Western North America has an average elevation that is ∼2 km higher than cratonic North America. This difference coincides with a westward decrease in average lithospheric thickness from ∼240 to 260 basaltic samples. Forward and inverse modeling of carefully selected major, trace, and rare earth ele...

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Veröffentlicht in:Geochemistry, geophysics, geosystems : G3 geophysics, geosystems : G3, 2018-09, Vol.19 (9), p.3376-3404
Hauptverfasser: Klöcking, M., White, N. J., Maclennan, J., McKenzie, D., Fitton, J. G.
Format: Artikel
Sprache:eng
Schlagworte:
Anomalies
Asthenosphere
Basalt
Chemical analysis
Composition
Correlation
Cretaceous
Decompression
Earth
Fossils
Geochemistry
Global temperatures
Heat flow
Indigenous peoples
Lava
Magma
Modelling
Peridotite
Plains
Potential temperature
Rare earth elements
Ratios
Rock
Rocks
Sea level
Seismic velocities
Temperature
Temperature anomalies
Trace elements
Velocity
Wave velocity
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Zusammenfassung:Western North America has an average elevation that is ∼2 km higher than cratonic North America. This difference coincides with a westward decrease in average lithospheric thickness from ∼240 to 260 basaltic samples. Forward and inverse modeling of carefully selected major, trace, and rare earth elements were used to determine melt fraction as a function of depth. Basaltic melt appears to have been generated by adiabatic decompression of dry peridotite with asthenospheric potential temperatures of 1340 ± 20 °C. Potential temperatures as high as 1365 °C were obtained for the Snake River Plain. For the youngest (i.e.,
ISSN:1525-2027
1525-2027
DOI:10.1029/2018GC007559