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Neotectonic and recent fault activity in NE Croatia: evidences from DEM based morphometry, structural analysis of 2D seismic sections and 2D GPR mapping (CROSBI ID 610165)

Prilog sa skupa u zborniku | sažetak izlaganja sa skupa | međunarodna recenzija

Matoš, Bojan ; Tomljenović, Bruno ; Herak, Marijan ; Herak, Davorka ; Takač, Damir ; Zajc, Marjana ; Kordić, Branko ; Gosar, Andrej Neotectonic and recent fault activity in NE Croatia: evidences from DEM based morphometry, structural analysis of 2D seismic sections and 2D GPR mapping // Acta Mineralogica-Petrographica / Pál-Molnár Elemér & B. Kiss, Gabriella (ur.). Segedin: University of Szeged, 2014. str. 83-83

Podaci o odgovornosti

Matoš, Bojan ; Tomljenović, Bruno ; Herak, Marijan ; Herak, Davorka ; Takač, Damir ; Zajc, Marjana ; Kordić, Branko ; Gosar, Andrej

engleski

Neotectonic and recent fault activity in NE Croatia: evidences from DEM based morphometry, structural analysis of 2D seismic sections and 2D GPR mapping

Relief is often classified as polyphasic phenomena, which show multiple tectonic overprints and produce unique physiographic characteristics of the certain part of Earth’s surface. Analysis of three-dimensional properties and origin of landscape often implies multidisciplinary quantitative approach connecting active tectonics processes with climate and erosion features trough available data from field of geology, seismology, geochronology, and tectonic geomorphology, etc. In this work, identification of neotectonic and recent active faults in Bilogora Mt. of NE Croatia was performed by combined DEM based morphometric analysis and structural analysis of 2D seismic sections, supplemente by 2D mapping with GPR. Bilogora Mt. area is a Pliocene-Quaternary transpressional morphostructure or a positive flower structure (Prelogović et al., 1998) genetically linked with tectonic evolution of the Drava depression and its SW prolongation (Bjelovar sub-depression). According to our data this structure is related to tectonic inversion of NW-striking Drava basin boundary fault (DBBF), from initially normal into later dextral strike-slip fault. Bilogora Mt. area is predominantly composed of highly deformed clastic Pliocene-Quaternary sediments of the 3rd depositional megacycle of the SW Pannonian Basin in Croatia (Velić et al., 2002 ; Saftić et al., 2003). Recent tectonic activity in the area is confirmed by moderate seismicity (VI°-VIII° MCS, 3, 5≤ML≤5, 6). Fault plane soulutions in the northwestern part indicate NE-SW directed Shmax and NE- to S-SW-dipping seismogenic structures characterized by strike-slip and reverse motions (Herak et al., 2009). Computer-based morphometry using DEM (10m resolution) was performed by ESRI ArcMap 9.3.1. software with available extensions (CalHypso, Spatial Analyst, ArcHydro 1.1, and StPro.) and Matlab software. Study area, divided into 131 drainage basins, was analyzed by relief and basin morphometry (elevation and slope distribution, hypsometry, asymmetry factor), and longitudinal stream profile morphometry (maximal concavity, distance from the source, concavity factor, steepness index, and concavity index). Morphometry results points to several drainage basins affected by recent on-going tectonics. These drainage basins and streams are located: i) between towns of Koprivnica and Pitomača in the NW part, and ii) between towns of Virovitica and Daruvar in SE part. Furthermore on-going tectonics was cross-checked by a set of 2D seismic sections and boreholes using Schlumberger Petrel Seismic to Simulation software. As a result, 3D structural depth model was constructed, with 6 stratigraphic horizons and fault planes active during the Neogene and Quaternary times. Morphometrically recognized on-going tectonics in the NW part of Bilogora Mt. area correlate well with subsurface fault-related folds formed in hangingwalls of normal-inverted and newly formed reverse faults, displacing the base Pliocene-Quaternary horizon and propagating towards the surface. Pliocene and Quaternary vertical offset along these faults varies between 20 and 490 m, indicating slip rate of 0.1 mm/year. By application of empirical geometrical fault-scaling relationships of Wells and Coppersmith (1994), we estimate that some of analyzed faults could generate earthquakes with magnitudes up to 6.86, which are greater than historically reported. The same faults could generate maximal vertical surface displacement < 1.46 m per seismic event. Landscape response to ongoing tectonic activity was additionaly studied by 2D mapping with Malå ProEx Georadar (RTA antenna with 50 MHz) at 6 selected locations. At three locations in the NW part, a vertical offset of very shallow stratigraphic horizons are confirmed to reach 0.5 m, and also confirmed the most recent tectonic activity by even surface-braking faults.

Pliocene; Quaternary; transpression; seismicity; Bilogora Mt.; NE Croatia; DEM; hypsometry; asymmetry; longitudinal profiles; RTA index; ESRI ArcMap; PetrelTM; 3D structural modeling; active faults; offset; 2D GPR mapping; seismogenic potential; magnitude; fault surface displacement.

http://isgc2014.elte.hu/

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Podaci o prilogu

83-83.

2014.

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objavljeno

Podaci o matičnoj publikaciji

Acta Mineralogica-Petrographica

Pál-Molnár Elemér & B. Kiss, Gabriella

Segedin: University of Szeged

0324-6523

Podaci o skupu

5th International Students Geological Conference

poster

24.04.2014-27.04.2014

Budimpešta, Mađarska

Povezanost rada

Geologija, Rudarstvo, nafta i geološko inženjerstvo