Double-difference relocation of the 29 January 2011 ML 4.5 Oroszlány earthquake and its aftershocks and its relevance to the rheology of the lithosphere and geothermal prospectivity

Double-difference relocation of the 29 January 2011 ML 4.5 Oroszlány earthquake and its aftershocks and its relevance to the rheology of the lithosphere and geothermal prospectivity

In the central part of Hungary, an earthquake with the local magnitude of 4.5 occurred near the town of Oroszlány, on 29 January 2011. The main shock and its more than 200 aftershocks were recorded by a significant number of three-component seismic stations, which enabled us to perform multiple even...

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Bibliographic Details
Published in:Acta geodaetica et geophysica Vol. 52; no. 2; pp. 229 - 242
Main Authors: Békési, Eszter, Süle, Bálint, Lenkey, László, Lenkey-Bőgér, Ágnes, Bondár, István
Format: Journal Article
Language:English
Published: Dordrecht Springer Netherlands 01-06-2017
Springer Nature B.V
Subjects:
Accuracy
Aftershocks
Clusters
Cross correlation
Earth and Environmental Science
Earth Sciences
Earthquake construction
Earthquakes
Geophysics/Geodesy
Geothermal gradient
Ground truth
Lithosphere
Mathematical models
Profiles
Relocation
Rheological properties
Rheology
Sediments
Seismic activity
Seismicity
Sequencing
Special issue - Geothermal Energy System
Earthquake location
Rheology
Seismicity and geothermics
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Summary:In the central part of Hungary, an earthquake with the local magnitude of 4.5 occurred near the town of Oroszlány, on 29 January 2011. The main shock and its more than 200 aftershocks were recorded by a significant number of three-component seismic stations, which enabled us to perform multiple event location on the event cluster. We applied the double difference, HypoDD method to relocate the aftershock sequence in order to identify the pattern of active faulting. We used the extended International Seismological Centre location algorithm, iLoc to determine the initial single event locations for the aftershock sequence and applied multiple event location algorithm on the new hypocenters. To improve both location precision and accuracy, we added differential times from waveform cross correlation to the double-difference multiple event location process to increase the accuracy of arrival time readings. We show that both HypoDD collapses the initial, rather diffuse locations into a smaller cluster and the vertical cross-sections show sharp images of seismicity. Some of the relocated events in the cluster are ground truth quality with a location accuracy of 5 km or better. Having achieved accurate locations, we further examined the extent of the seismogenic zone. We investigated the relationship between geothermics and seismicity through strength profiles constructed for the study area. The aftershocks of the Oroszlány earthquake are dominantly in the range of 5–10 km, fitting well to the extent of the thin brittle part of the crust. It shows that the events are well in accordance with a thermally attenuated lithosphere and elevated geothermal gradient in the upper crust and basin sediments. These findings underline the geothermal prospectivity of the Panonian Basin.
ISSN:2213-5812
2213-5820
DOI:10.1007/s40328-017-0195-7