Quaternary faulting in the Western Carpathians: Insights into paleoseismology from cave deformations and damaged speleothems (Demänová Cave System, Low Tatra Mts)

Quaternary faulting in the Western Carpathians: Insights into paleoseismology from cave deformations and damaged speleothems (Demänová Cave System, Low Tatra Mts)

Multiphase cave conduit offset and related speleothem damage in the Demänová Cave System (DCS; the Low Tatra Mts, Central Western Carpathians) were dated with U-series methods, revealing five events: (1) 570 (442)–417 ka, (2) 306–291 ka, (3) 184–130 ka, (4) ~19 ka, and (5) 2.56–2.3 ka. To decipher t...

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Bibliographic Details
Published in:Tectonophysics Vol. 820; p. 229111
Main Authors: Szczygieł, Jacek, Gradziński, Michał, Bella, Pavel, Hercman, Helena, Littva, Juraj, Mendecki, Maciej J., Sala, Przemysław, Wróblewski, Wojciech
Format: Journal Article
Language:English
Published: Amsterdam Elsevier B.V 05-12-2021
Elsevier BV
Subjects:
Acceleration
Attenuation
Displacement
Earthquake damage
Earthquakes
Fractured speleothem
Geochronology
Geomorphology
Gravity
Historical account
History
Low Tatra Mts
Neotectonics
Offsets
Paleogeology
Paleoseismology
Quaternary
Seismic activity
Seismicity
Seismology
Shaking
Sliding
Slumping
Speleoseismology
Valleys
Western Carpathians
Fractured speleothem
Speleoseismology
Low Tatra Mts
Paleoseismology
Neotectonics
Western Carpathians
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Summary:Multiphase cave conduit offset and related speleothem damage in the Demänová Cave System (DCS; the Low Tatra Mts, Central Western Carpathians) were dated with U-series methods, revealing five events: (1) 570 (442)–417 ka, (2) 306–291 ka, (3) 184–130 ka, (4) ~19 ka, and (5) 2.56–2.3 ka. To decipher the cause of the damage, we combined geochronological data with structural, geomorphological, and seismological research. Gravity sliding as a probable source of damage is unlikely since the Demänová Valley has deepened only to a small extent for the past 550 ka and the steep fissure guiding the studied parts of the DCS extends below the recent valley. However, coseismic block sliding cannot be unambiguously excluded, as Newmark displacement analysis revealed that any >M7 earthquake in the 25 km range could have produced a 10-cm pseudostatic displacement. The studied offsets were accompanied by shaking, as inferred from fallen stalagmites and stalactites; hence, distant earthquakes are plausible damage sources. We applied ground-motion models and compared them with seismicity and scant prehistoric and historical data to identify and quantify the probable seismic source, which is most likely the Sub-Tatric Fault located 17.5 km from the cave. As inferred from the applied ground-motion models, a > M7 event on the Sub-Tatric Fault would generate a PGA >4 m/s2 in the cave despite the attenuation, which is above the threshold horizontal ground acceleration forcing the majority of speleothems to break. Although the mechanism that leads to cave passage offsets remains unclear we consider them as an off-fault damage caused by secondary faulting related to postseismic surface vertical movements, or less likely but not out of the realm of possibility distributed rupturing. •Multiphase cave conduit offsets in the Demänová Cave System were analyzed.•Speleothem damage was dated with U-series methods, revealing five events.•The most likely cause of damage is coseismic deformation.•The most likely seismic source is the Sub-Tatric Fault.
ISSN:0040-1951
1879-3266
DOI:10.1016/j.tecto.2021.229111