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NARROW
GeoRef Subject
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all geography including DSDP/ODP Sites and Legs
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Granite Mountains (1)
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Sierra Nevada (1)
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United States
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California
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Inyo County California
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United States
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California
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Garlock Fault (3)
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Inyo County California
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Coso Hot Springs KGRA (1)
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Coso Range (1)
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Kern County California (3)
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sedimentary rocks
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Comparison of Near‐Fault Displacement Interpretations from Field and Aerial Data for the M 6.5 and 7.1 Ridgecrest Earthquake Sequence Ruptures
Pliocene–Pleistocene basin evolution along the Garlock fault zone, Pilot Knob Valley, California
ShakeAlert Earthquake Early Warning System Performance during the 2019 Ridgecrest Earthquake Sequence
Fault Rerupture during the July 2019 Ridgecrest Earthquake Pair from Joint Slip Inversion of InSAR, Optical Imagery, and GPS
Seismicity Rate Change at the Coso Geothermal Field Following the July 2019 Ridgecrest Earthquakes
Persistent slip rate discrepancies in the eastern California (USA) shear zone
Correlations of Seismicity Patterns in Southern California with Surface Heat Flow Data
Chemical variability and the composite nature of dikes from the Jurassic Independence dike swarm, eastern California
The 148 Ma Independence dike swarm is a prominent feature of the Jurassic Cordilleran arc, extending >600 km from the eastern Sierra Nevada to the Mojave Desert, California. The swarm is fundamentally mafic in composition (<55 wt% SiO 2 ), although dikes range in composition from basalt to rhyolite. Many dikes in the swarm are composite and contain multiple subparallel sheets or abundant enclaves. Whereas most Sierran composite dikes contain only mafic intrusions, some contain both mafic and felsic sheets. In more southerly portions of the swarm (the Spangler Hills and Granite and Fry Mountains), composite dikes rarely contain subparallel intrusions but instead contain abundant enclaves that locally comprise >50 vol% of a dike. Compositional variability in the Independence swarm as a whole may be correlated with physical characteristics of composite dikes. In the Sierra, where composite dikes show little evidence for interaction between mafic and felsic magmas, compositions are bimodally distributed. In contrast, in the south, where composite dikes are characteristically enclave-rich, intermediate-composition dikes are more common. Elemental and isotopic data for the Independence dikes are consistent with chemical controls on mixing processes. The source for the mafic dikes has a consistent ε Nd (t) value of ~–2, independent of location. This probably reflects derivation from a widespread, isotopically homogeneous source rather than lateral intrusion of the dikes over a great distance from a single source. The isotopic data for the dike swarm as a whole are part of a long-term trend of decreasing isotopic variability over a broad range of bulk composition in the Jurassic through Cretaceous Sierran batholith. Mylonitic shear zones and limited geobarometric data suggest that Sierran dikes represent deeper levels of exposure than dikes in the Mojave Desert, where host rocks are not mylonitized. If dikes along the swarm tapped magmas emplaced at similar paleodepths, then variations in composite dike features and dike compositions along the swarm may reflect different degrees of mixing vertically within dike conduits.