Influence of magmatism on the architecture of transpressional faults and shear zones in the deep crust of the Late Cretaceous Southern California batholith

Structural analyses combined with U‐Pb zircon petrochronology show the influence of arc magmatism on the evolution of two transpressional shear zones in the deep root of the Late Cretaceous Southern California batholith.  The mid-crustal Black Belt and lower-crustal Cucamonga shear zones (eastern San Gabriel Mountains) formed at ~84 Ma shortly after a large mass of tonalite and granodiorite intruded the lower crust.  Both shear zones were active until at least ~74 Ma and probably until 72-70 Ma.  In the mid-crustal shear zone, rheological contrasts between mingling magmas localized deformation at dike margins.  The deformation began as hypersolidus flow in partially crystallized dikes and then transitioned to deformation below the solidus when alternations between viscous creep and brittle faulting produced interlayered pseudotachylyte, cataclasite, and mylonite. As the dikes solidified, strain hardening drove shear zone growth and created thin (10-30 m) high-strain ..., We conducted U-Pb analyses on 11 zircon-bearing samples to determine the timing of magmatism, metamorphism, and deformation in the Black Belt and Cucamonga shear zones. Some zircons exhibited interior core and rim domains that reflect a history of deformation and metamorphism at amphibolite- to granulite-facies conditions.  The methods used in this study closely follow those outlined in Kylander-Clark et al. (2013) and are described in detail by Schwartz et al. (2024b).  U-Pb ratios were collected at the University of California, Santa Barbara using a Nu Plasma multi-collector inductively coupled plasma mass spectrometer (MC-ICPMS) with a Photon Machines 193 ArF excimer laser with HelEx cell. Spot size and frequency were 35 µm and 4 Hz, respectively.  The primary standard (91500) was accessed every 10 analyses to correct for in-run fractionation of Pb/U and Pb isotopes. A secondary standard (Temora-2) was analyzed every ~10 analyses to assess data reproducibility. Uncerta..., , # Data from: Influence of magmatism on the architecture of transpressional faults and shear zones in the deep crust of the Late Cretaceous Southern California batholith [https://doi.org/10.5061/dryad.jh9w0vtn6](https://doi.org/10.5061/dryad.jh9w0vtn6) ## Description of the data and file structure All isotopic, geochemical, and trace element data were collected as part of a study to determine the timing of magmatism, metamorphism, and deformation in the Black Belt and Cucamonga shear zones in the southeastern San Gabriel Mountains in Southern California. Some zircons exhibited interior core and rim domains that reflect a history of deformation and metamorphism at amphibolite- to granulite-facies conditions. Where possible, we used zircon trace-element concentrations and ratios, particularly U (ppm), U/Th, Gd/Yb, and Dy/Yb, to distinguish metamorphic age populations. For more information on methods and an interpretation of the data, please see the publication in the journal *GSA Bullet...,