In this paper, we describe the active kinematics of the Greater Caucasus (territories of Georgia, Azerbaijan and Russia) through an integrated analysis of seismological, geological-structural and GPS data. Alignments of crustal earthquake epicentres indicate that most seismic areas are located along the southern margin of the mountain belt and in its north-eastern sector, in correspondence of major, active WNW-ESE faults, parallel to the mountain range. Focal Mechanism Solutions (FMS) delineate dominant reverse fault kinematics in most sectors of the mountain belt, though swarms of strike-slip FMS indicate the presence of active transcurrent faulting, especially along the southeastern border of the Greater Caucasus. The mountain belt is characterized by dominant NNE-SSW-oriented P-axes. In the central-southern sector, in correspondence of the local collision between the Lesser and Greater Caucasus, P-axes are mainly NNW-SSE oriented. GPS data show dominant motions to the NNW, with rates increasing in eastward direction. All observations are consistent with a component of eastward escape of the central-eastern part of the Greater Caucasus.

Tibaldi, A., Babayev, G., Bonali, F., Pasquare Mariotto, F., Russo, E., Tsereteli, N., et al. (2021). Active kinematics of the greater caucasus from seismological and GPS data: A review. In F.L. Bonali, F. Pasquaré Mariotto, N. Tsereteli (a cura di), Building Knowledge for Geohazard Assessment and Management in the Caucasus and other Orogenic Regions (pp. 33-57). Springer Science and Business Media B.V. [10.1007/978-94-024-2046-3_4].

Active kinematics of the greater caucasus from seismological and GPS data: A review

Tibaldi A.
;
Babayev G.;Bonali F. L.;Russo E.;Corti N.
2021

Abstract

In this paper, we describe the active kinematics of the Greater Caucasus (territories of Georgia, Azerbaijan and Russia) through an integrated analysis of seismological, geological-structural and GPS data. Alignments of crustal earthquake epicentres indicate that most seismic areas are located along the southern margin of the mountain belt and in its north-eastern sector, in correspondence of major, active WNW-ESE faults, parallel to the mountain range. Focal Mechanism Solutions (FMS) delineate dominant reverse fault kinematics in most sectors of the mountain belt, though swarms of strike-slip FMS indicate the presence of active transcurrent faulting, especially along the southeastern border of the Greater Caucasus. The mountain belt is characterized by dominant NNE-SSW-oriented P-axes. In the central-southern sector, in correspondence of the local collision between the Lesser and Greater Caucasus, P-axes are mainly NNW-SSE oriented. GPS data show dominant motions to the NNW, with rates increasing in eastward direction. All observations are consistent with a component of eastward escape of the central-eastern part of the Greater Caucasus.
Capitolo o saggio
Active fault; Caucasus; Earthquakes; Focal mechanisms; GPS data;
English
Building Knowledge for Geohazard Assessment and Management in the Caucasus and other Orogenic Regions
Bonali, FL; Pasquaré Mariotto, F; Tsereteli, N
2021
978-94-024-2045-6
Springer Science and Business Media B.V.
33
57
Tibaldi, A., Babayev, G., Bonali, F., Pasquare Mariotto, F., Russo, E., Tsereteli, N., et al. (2021). Active kinematics of the greater caucasus from seismological and GPS data: A review. In F.L. Bonali, F. Pasquaré Mariotto, N. Tsereteli (a cura di), Building Knowledge for Geohazard Assessment and Management in the Caucasus and other Orogenic Regions (pp. 33-57). Springer Science and Business Media B.V. [10.1007/978-94-024-2046-3_4].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/305259
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