Crustal Structure Across the Central Dead Sea Transform and Surrounding Areas: Insights Into Tectonic Processes in Continental Transforms

ten Brink, U. S.; Levi, E.; Flores, C. H.; Koulakov, I.; Bronshtein, N.; Ben‐Avraham, Z.

doi:10.1029/2023tc007799

Tectonics

2023

DOI: 10.1029/2023tc007799

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Crustal Structure Across the Central Dead Sea Transform and Surrounding Areas: Insights Into Tectonic Processes in Continental Transforms

U. S. ten Brink,

E. Levi,

C. H. Flores

et al.

Abstract: New geophysical profiles across the central Dead Sea Transform (DST) near the Sea of Galilee, Israel, and surrounding highlands, augmented by static stress modeling, allow us to study continental transform plate deformation. The DST separates a ∼10 km thick sedimentary column above a thinned (16–23 km) crust to the west from a ∼7 km column above a ∼30‐km thick crust to the east. Crustal thinning starts under the DST, as observed also farther south, indicating that the DST is indeed located along the boundary b… Show more

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2024

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Cited by 3 publications

References 75 publications

(205 reference statements)

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Evolution of the transtensional Barreirinhas pull-apart system in the Brazilian Equatorial margin and its correlation with the African conjugate counterpart

de Castro,

Oliveira,

Bezerra

2024

Tectonophysics

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Evolution of the transtensional Barreirinhas pull-apart system in the Brazilian Equatorial margin and its correlation with the African conjugate counterpart

de Castro,

Oliveira,

Bezerra

2024

Tectonophysics

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Detachment and Transfer Fault Systems in the Northern South China Sea, Insights Into 3D Tectonic Segmentation of Rifted Margins

Hao,

Mei,

Zheng

et al. 2024

Tectonics

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The 2D rifting modes interpreted in traditional “magma‐poor” and “magma‐rich” margins cannot explain the crustal structure and inferred rifting processes in the northern South China Sea (SCS) rifted margin. The “intermediate‐type” terminology has been therefore applied to the mid‐northern SCS, where a “wide‐rift” model has been widely accepted. However, the tectono‐magmatic processes of the SCS are still debated and at least five contrasting models exist. We present a compilation of 3‐D seismic volumes and regional 2‐D seismic surveys covering the entire Baiyun and Liwan Sub‐basins to investigate their tectonic structure and faulting style in this “wide‐rift” region. We interpret two segments with contrasting tectonic styles separated by a volcanic lineament and steep transfer faults. The Baiyun Sub‐basin was controlled by a landward‐dipping detachment system. The Liwan Sub‐basin, however, was formed by a ∼100 km‐long oceanward‐dipping, concave‐up detachment fault working at a low angle of <10°. The lateral boundaries of the detachment system were mechanically decoupled from surrounding tectonics by a volcanic lineament/transfer zone to the west and a > 190 km‐long N‐S‐trending left‐lateral strike‐slip fault to the east. The planar low‐angle detachment does not resemble classical metamorphic core complex domes interpreted previously. Our results indicate a 60‐80 km‐wavelength segmentation within a single “wide‐rift” system, indicating complex 3D rifting during crustal extension. This study supports that the intermediate SCS margin had a kinematically complex deformation style locally dominated by the interaction between detachment and transfer fault systems that might be yet unrecognized in other margins.

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Shear-Wave Velocity Model for the Dead Sea Transform from Multimode Inversion of Surface Waves Excited by the February 2023 Southeast Türkiye Earthquake Sequence

Lellouch,

Inbal,

Ziv

2024

Seismological Research Letters

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The dispersive nature of surface waves can be used for shear-wave velocity inversion at different scales. We show that four large earthquakes from the 2023 Türkiye earthquake sequence generate visible surface waves recorded by a dense strong-motion network deployed along the Dead Sea Transform (DST) in Israel. Thanks to favorable geometrical conditions and source radiation patterns, we observe both Rayleigh and Love waves that travel predominantly parallel to the network. We can reliably compute the dispersion of three Love-wave modes and two Rayleigh-wave modes. Using these dispersion curves, we invert for a 1D S-wave velocity model of the entire DST, outperforming an existing model. Statistical and kernel sensitivity analysis show high certainty down to a depth of 30 km thanks to the multimode joint inversion in the frequency band of 0.03–0.3 Hz. Using a multiwindow approach, we invert for an along-strike laterally varying velocity model of the DST. Although it is limited to the fundamental Love-wave mode, using the 1D model as a constraint allows us to recover a shallow (10 km) velocity structure in agreement with previous studies of the area. Despite the simplicity of our used approach, it can be used as a basis for more advanced studies.

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Crustal Structure Across the Central Dead Sea Transform and Surrounding Areas: Insights Into Tectonic Processes in Continental Transforms

Cited by 3 publications

References 75 publications

Evolution of the transtensional Barreirinhas pull-apart system in the Brazilian Equatorial margin and its correlation with the African conjugate counterpart

Evolution of the transtensional Barreirinhas pull-apart system in the Brazilian Equatorial margin and its correlation with the African conjugate counterpart

Detachment and Transfer Fault Systems in the Northern South China Sea, Insights Into 3D Tectonic Segmentation of Rifted Margins

Shear-Wave Velocity Model for the Dead Sea Transform from Multimode Inversion of Surface Waves Excited by the February 2023 Southeast Türkiye Earthquake Sequence

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