Solid Earth (Oct 2021)

Holocene surface-rupturing earthquakes on the Dinaric Fault System, western Slovenia

  • C. Grützner,
  • S. Aschenbrenner,
  • S. Aschenbrenner,
  • P. Jamšek Rupnik,
  • K. Reicherter,
  • N. Saifelislam,
  • B. Vičič,
  • M. Vrabec,
  • J. Welte,
  • K. Ustaszewski

DOI
https://doi.org/10.5194/se-12-2211-2021
Journal volume & issue
Vol. 12
pp. 2211 – 2234

Abstract

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The Dinaric Fault System in western Slovenia, consisting of NW–SE-trending, right-lateral strike-slip faults, accommodates the northward motion of Adria with respect to Eurasia. These active faults show a clear imprint in the morphology, and some of them hosted moderate instrumental earthquakes. However, it is largely unknown if the faults also had strong earthquakes in the late Quaternary. This hampers our understanding of the regional tectonics and the seismic hazard. Geological evidence of co-seismic surface ruptures only exists for one historical event, the 1511 Idrija earthquake with a magnitude of ∼ M 6.8, but the causative fault is still disputed. Here we use geomorphological data, near-surface geophysical surveys, and paleoseismological trenching to study two of these faults: the Predjama Fault and the Idrija Fault. In a paleoseismological trench across the Predjama Fault we found deformation features that may have been caused by an earthquake between 13–0.7 ka, very likely not earlier than 8.4 ka. At the Idrija Fault, a surface-rupturing earthquake happened around 2.5 ka. We show that instrumental and historical seismicity data do not capture the strongest events in this area.