Proceedings of the 12th International INQUA meeting on paleoseismology, active tectonic and archaeoseismology

of the Pleistocene continuation of the process shaping the Alps since the Oligocene, related to extrusion tectonics. This contradicts many studies suggesting post-Miocene N-S extension in the Northern Calcareous Alps (e.g., Decker et al., 1994; Peresson & Decker, 1997ab) what we perceive as a topographic effect overprinted on deeper hidden tectonically driven deformation. A C K N O W L E D G E M E N T S This research was founded by the NCN Polish National Science Center (grant No 2020/39/D/ ST10/00615). R E F E R E N C E S Baroň, I., Plan, L., Sokol, L., Grasemann, B., Melichar, R., Mitrovic, I., & Stemberk, J. (2019). Present- day kinematic behaviour of active faults in the Eastern Alps: Tectonophysics , 752, 1-23. Decker, K., Peresson, H., & Faupl, P. (1994). Die miozäne Tektonik der östlichen Kalkalpen: Kinematik, Paläospannungen und Deformationsaufteilung während der “ lateralen Extrusion” der Zentralalpen. Jahrbuch Der Geologischen Bundesanstalt , 137(1), 5–18. Fernandez, O., Ortner, H., Sanders, D., Grasemann, B., & Leitner, T. (2024). Salt-rich versus salt- poor structural scenarios in the central Northern Calcareous Alps: implications for the Hallstatt facies and early Alpine tectonic evolution (Eastern Alps, Austria). International Journal of Earth Sciences , 113(2), 245-283. Hofman, L. J., Kummerow, J., & Cesca, S. (2023). A new seismicity catalogue of the eastern Alps using the temporary Swath-D network. Solid Earth , 14(10), 1053– 1066. https: //doi. org/10.5194/se-14-1053-2023 Linzer, H. G. , Decker, K. , Peresson, H. , Del l’Mour, R. , & Frisch, W. (2002). Balancing lateral orogenic f loat of the Eastern Alps. Tectonophysics , 354(3–4), 211–237. https: //doi .org/10.1016/ S0040-1951(02)00337-2 Or tner, H. , Reiter, F. , & Acs, P. (2002). Easy handl ing of tectonic data: the programs TectonicVB for Mac and TectonicsFP for Windowst. Computers & Geosciences (28). Peresson, H., & Decker, K. (1997a). The Tertiary dynamics of the northem Eastem Alps (Austria): changing palaeostresses in a collisional plate boundary. Tectonophysics , 272, 125–157. Peresson, H., & Decker, K. (1997b). Far-field effects of Late Miocene subduction in the Eastern Carpathians: E-W compression and inversion of structures in the Alpine- Carpathian-Pannonian region. Tectonics , 16(1), 38–56. https://doi. org/10.1029/96TC02730 Plan, L., Grasemann, B., Spötl, C., Decker, K., Boch, R., & Kramers, J. (2010). Neotectonic extrusion of the Eastern Alps: Constraints from U/ Th dating of tectonically damaged speleothems. Geology , 38(6), 483– 486. https://doi.org/10.1130/G30854.1 Ratschbacher, L., Frisch, W., Linzer, H.-G., & Merle, O. (1991). Lateral extrusion in the Eastern Alps, Part 2: structural analysis. Tectonics 10(2), 257-271. Reiter, F., Freudenthaler, C., Hausmann, H., Ortner, H., Lenhardt, W., & Brandner, R. (2018). Active Seismotectonic Deformation in Front of the Dolomites Indenter, Eastern Alps. Tectonics , 37(12), 4625–4654. https://doi. org/10.1029/2017TC004867 Sternai, P., Sue, C., Husson, L., Serpelloni, E., Becker, T. W., Willett, S. D., et al. (2019). Present-day uplift of the European Alps: Evaluating mechanisms and models of their relative contributions. Ear th-Science Reviews 190. 589-630. https://doi.org/10.1016/j. earscirev.2019.01.005 Szczygieł, J., Baroň, I., Melichar, R., Plan, L., Mitrović-Woodell, I., Kaminsky, E., et al. (2022). Post- Miocene tectonics of the Northern Calcareous Alps. Scientific Reports , 12(1), 17730. https://doi.org/10.1038/ s41598-022-22737-5