EGU21-10545, updated on 23 Jul 2023
https://doi.org/10.5194/egusphere-egu21-10545
EGU General Assembly 2021
© Author(s) 2023. This work is distributed under
the Creative Commons Attribution 4.0 License.

Geochronological evidence for repeated brittle reactivations of a pre-existing plastic shear zone: The Himdalen–Ørje deformation zone, Southern Norway

Espen Torgersen1,2, Roy Gabrielsen3, Johan Petter Nystuen3, Roelant van der Lelij1, Morgan Ganerød1, Jasmin Schönenberger1, Sofie Brask3, and Alvar Braathen3
Espen Torgersen et al.
  • 1Geological Survey of Norway-NGU, Trondheim, Norway (espen.torgersen@ngu.no)
  • 2Dept. of Geoscience and Petroleum, Norwegian University of Science and Technology-NTNU, Trondheim, Norway
  • 3Dept. of Geosciences, University of Oslo, Norway

It is well known that faults, once formed, become permanent weaknesses in the crust, localizing subsequent brittle strain increments. The case of repeated brittle reactivations localized along pre-existing plastic shear zones is less recognized, although this situation is frequently observed in many geologically old terranes.

We have studied the prolonged deformation history of the Himdalen–Ørje Deformation Zone (HØDZ) in SE Norway by combining K–Ar and 40Ar–39Ar geochronology with structural analysis. The HØDZ consists of a large variation of deformation products from mylonites and cataclasites to pseudotachylites and fault gouge. Several generations of mylonites make up the ductile part of HØDZ, called the Ørje shear zone, a km-think SW-dipping shear zone within the late Mesoproterozoic Sveconorwegian orogen. 40Ar–39Ar dating of white mica from one of these mylonites give a plateau age of c. 908 Ma, interpreted to constrain the timing of late-Sveconorwegian extensionial reactivation of the Ørje shear zone.

This mylonitic fabric is extensively reworked in a brittle fashion along the SW-dipping Himdalen fault, a 10–25 m thick fault zone of cataclasite, breccia, fault gouge and, in places, abundant pseduotachylite veins. 40Ar–39Ar dating of pseduotachylite material gives several small plateaus between c. 375 and 300 Ma, whereas K-feldspar clasts from the cataclasitically deformed host rock carry a Caledonian signal (plateau at c. 435 Ma). K–Ar dating of three fault gouges constrain the timing of gouge development at c. 270 and 200 Ma. Two of the fault gouges also contain protolithic K-bearing mineral phases that overlap in age with the c. 375 Ma pseudotachylite 40Ar–39Ar plateau age, consistent with field observations of the former reworking the latter.

In sum, the HØDZ records multiple Paleozoic and Mesozoic brittle reactivations of the early Neoproterozoic (and older) mylonitic Ørje shear zone. Most of the brittle deformation is interpreted to have accumulated during development of the Permian Oslo rift and its subsequent latest Triassic evolution. The suggested late Devonian (c. 375 Ma) initiation of brittle deformation does not have a clear tectonic association, but we speculate that it relates to strike-slip displacements caused by the Variscan orogen, as also suggested for the sub-parallel Tornquist zone to the south.

How to cite: Torgersen, E., Gabrielsen, R., Nystuen, J. P., van der Lelij, R., Ganerød, M., Schönenberger, J., Brask, S., and Braathen, A.: Geochronological evidence for repeated brittle reactivations of a pre-existing plastic shear zone: The Himdalen–Ørje deformation zone, Southern Norway, EGU General Assembly 2021, online, 19–30 Apr 2021, EGU21-10545, https://doi.org/10.5194/egusphere-egu21-10545, 2021.

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