ASGP (2019), vol. 89: 175–194
LATE CARBONIFEROUS THIN-SKINNED DEFORMATION IN THE LUBLIN BASIN, SE POLAND: RESULTS OF COMBINED SEISMIC DATA INTERPRETATION, STRUCTURAL RESTORATION AND SUBSIDENCE ANALYSIS
Mateusz KUFRASA (*), Agata STYPA, Piotr KRZYWIEC & Łukasz SŁONKA
Institute of Geological Sciences, Polish Academy of Sciences, Twarda 51/55, 00-818 Warsaw, Poland; e-mails: mateusz.kufrasa@twarda.pan.pl, agata.stypa@twarda.pan.pl, piotr.krzywiec@twarda.pan.pl, lukasz.slonka@twarda.pan.pl
*) Corresponding author
Kufrasa, M., Stypa, A., Krzywiec, P. & Słonka, Ł., 2019. Late Carboniferous thin-skinned deformation in the Lublin Basin, SE Poland: Results of combined seismic data interpretation, structural restoration and subsidence analysis. Annales Societatis Geologorum Poloniae, 89: 175–194.
Abstract: The aim of this study was to investigate the factors, which controlled the lateral change of structural style in the southeastern part of the Lublin Basin (Poland). Five selected seismic reflection profiles were interpreted with a focus on structural interpretation. Along the representative seismic reflection profile, a geological cross-section was constructed and restored. The structural model was supplemented/refined with core analysis to characterize the deformation mode affecting Silurian strata at a sub-seismic scale (i.e. below the seismic vertical resolution). Published palaeothickness maps were used to estimate the pre-deformation thickness of partly eroded Carboniferous rocks. The results of cross-section restoration were then compared to the subsidence modelling carried out for one deep well. The study revealed that during Late Carboniferous shortening, a thick layer of Silurian shales played the role of detachment level, above which brittle Devonian–Carboniferous strata were folded and thrust. The lateral extent of thin-skinned deformation was controlled by the presence of a step in the basement and the pinching out of the Silurian strata. In the northwestern part of the Lublin Basin, the Kock Fault Zone acted as a region of strain concentration, where Silurian shales were tectonically thickened, and shows a ductile style of deformation resembling the mushwad structures of the Appalachian fold-and-thrust belt.
Manuscript received 04 December 2018, accepted 4 June 2019