Timing and extent of Neogene tectonic rotation in the western Transverse Ranges, California

Hornafius, J. Scott; Luyendyk, Bruce P.; Terres, Richard R.; Kamerling, M. J.

doi:10.1130/0016-7606(1986)97<1476:taeont>2.0.co;2

Cited by 162 publications

(106 citation statements)

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“…The en echelon shallow branched thrusts extracted from seismic data (Figure 4c) can be interpreted as part of this positive flower structure (Figure 8). Because positive flower structures typically include thrusts with minor displacement surrounding a main strike-slip fault (e.g., Hornafius et al 1986;Murphy and Fuis 2010) and because the shallow splay fault was much more active in the past (approximately 2 Ma), only dip-slip features are observed in core samples of the shallow branched megasplay fault (Ashi et al 2008).…”

Section: Discussionmentioning

confidence: 99%

Strike-slip motion of a mega-splay fault system in the Nankai oblique subduction zone

2014

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We evaluated the influence of the trench-parallel component of plate motion on the active fault system within the Nankai accretionary wedge from reflection seismic profiles, high-resolution seafloor bathymetry, and deep-towed sub-bottom profiles. Our study demonstrated that a large portion of the trench-parallel component of oblique plate subduction is released by strike-slip motion along a fault located just landward of and merging down-dip with a mega-splay fault. The shallow portion of the splay fault system, forming a flower structure, seems to accommodate dominant strike-slip motion, while most of the dip-slip motion could propagate to the trenchward décollement. Numerous fractures developed around the strike-slip fault release overpressured pore fluid trapped beneath the mega-splay fault. The well-developed fractures could be related to the change in stress orientation within the accretionary wedge. Therefore, the strike-slip fault located at the boundary between the inner and outer wedges is a key structure controlling the stress state (including pore pressure) within the accretionary prism. In addition, the strike-slip motion contributes to enhancing the continuous mega-splay fault system (outer ridge), which extends for approximately 200 km parallel to the Nankai Trough.

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Section: Discussionmentioning

confidence: 99%

Strike-slip motion of a mega-splay fault system in the Nankai oblique subduction zone

2014

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“…1) crosses the complex geology of the western and central Transverse Ranges, Mojave Desert, Tehachapi Mountains, and Sierra Nevada. The western Transverse Ranges, including the Santa Monica Mountains, San Fernando Valley, and Santa Susana Mountains, are believed to have rotated more than 90Њ clockwise since the early Miocene from a position offshore of the Peninsular Ranges (Hornafius et al, 1986;Crouch and Suppe, 1993). The southernmost range in this province, the Santa Monica Mountains, is an anticlinorium containing in its core Mesozoic igneous and metamorphic rocks (Dibblee, 1992).…”

Section: Geological Settingmentioning

confidence: 99%

Upper Crustal Structure from the Santa Monica Mountains to the Sierra Nevada, Southern California: Tomographic Results from the Los Angeles Regional Seismic Experiment, Phase II (LARSE II)

Lutter¹,

Fuis²,

Ryberg³

et al. 2004

Bulletin of the Seismological Society of America

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“…Our paleomagnetic data demonstrate that clockwise rotation of structural blocks, in addition to extensional and strike-slip faulting, accounts for significant late Miocene to Recent deformation in this area. Rigid body rotation can contribute an important component of relative plate displacement through time [e.g., Hornafius et al, 1986;Luyendyk, 1990;Dickinson, 1996] and may allow extension independent of that produced by pure dip-slip motion. Our data suggest that this is the case for northeastern Baja California.…”

mentioning

confidence: 99%

Paleomagnetic evidence of localized vertical axis rotation during Neogene extension, Sierra San Fermín, northeastern Baja California, Mexico

Lewis¹,

Stock²

1998

J. Geophys. Res.

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Timing and extent of Neogene tectonic rotation in the western Transverse Ranges, California

Cited by 162 publications

References 0 publications

Strike-slip motion of a mega-splay fault system in the Nankai oblique subduction zone

Strike-slip motion of a mega-splay fault system in the Nankai oblique subduction zone

Upper Crustal Structure from the Santa Monica Mountains to the Sierra Nevada, Southern California: Tomographic Results from the Los Angeles Regional Seismic Experiment, Phase II (LARSE II)

Paleomagnetic evidence of localized vertical axis rotation during Neogene extension, Sierra San Fermín, northeastern Baja California, Mexico

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