Fracturing, comminution and grain-size-sensitive creep as a record of coseismic loading in the middle-crust: Insights from the Urtiga mylonitic pluton (NE Brazil)

Evidence for mid-crustal seismic slip is scarce due to the limited capacity of downward propagation of rupture damage imposed by the confining pressure. Nevertheless, structures indicative of elevated stresses occur throughout the crustal profile. To further investigate this setting, we have studied...

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Bibliographic Details
Published in:Journal of structural geology 2024-10, Vol.187, p.105237, Article 105237
Main Authors: Viegas, Gustavo, Taufner, Rhander, Okudaira, Takamoto, Hidas, Károly, Menzel, Manuel D., Archanjo, Carlos J., Pereira, Yasmin dos Santos, de Souza, Carolina Peixoto
Format: Article
Language:English
Subjects:
Borborema province
Deformation mechanisms
EBSD
Microstructures
Rheology
Shear zones
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Summary:Evidence for mid-crustal seismic slip is scarce due to the limited capacity of downward propagation of rupture damage imposed by the confining pressure. Nevertheless, structures indicative of elevated stresses occur throughout the crustal profile. To further investigate this setting, we have studied the fabrics of the Urtiga pluton, emplaced at the south Patos shear zone (northeast Brazil), a major Neoproterozoic crustal boundary. K-feldspar and plagioclase porphyroclasts are fractured, with fine-grained K-feldspar + plagioclase mixtures filling cracks. The edges of the clasts are rimmed by fine feldspar grains that form a fine-grained matrix. Quartz ribbons are parallel to the mylonitic foliation and show microstructures and a fabric indicating deformation via dislocation creep. Chemical compositions of feldspars are typically similar between porphyroclasts, fractures and matrix, with plagioclase grains locally being more albitic within fractures. Crystallographic preferred orientations (CPO) in grains within fractures are host-controlled by the adjacent porphyroclast, while fine grains rimming the clasts show a weak CPO and are mostly strain-free. These characteristics suggest that grain size reduction in the Urtiga mylonitic pluton occurred through fracturing and subsequent grain-size-sensitive creep under mid-crustal conditions, which were possibly attained via downward propagation of seismic rupture from the overlying seismogenic zone during transient, seismic slip episodes, giving rise to spatially related pseudotachylytes at the boundaries of the southern Patos shear zone. •The Urtiga pluton is a syntectonic intrusion emplaced within the Patos shear zone.•Fracturing and grain-size-sensitive creep result in fine-grained feldspathic mixtures.•Microstructures and crystallographic fabrics suggest activity of seismic rupture.•Transients of high-stress at mid-crustal levels recorded as localized coseismic damage.
ISSN:0191-8141
DOI:10.1016/j.jsg.2024.105237