Abstract
Vrancea seismogenic zone in the South-Eastern Carpathians is characterized by localized intermediate-depth seismicity. Due to its complex geodynamics and large strain release, Vrancea represents a key element in the Carpatho-Pannonian system. Data from a recently compiled catalogue of fault plane solutions (REFMC) are inverted to evaluate stress regime in Vrancea on depth. A single predominant downdip extensive regime is obtained in all considered clusters, including the crustal layers located above the Vrancea slab. The prevalent stress regime confirms previous investigations and requires some mantle-crust coupling. The S3 principal stress is close to vertical, while S1 and S2 are horizontal, oriented perpendicularly and respectively tangentially to the Carpathians Arc bend. This configuration is present at any depth level. According to seismicity patterns, there are two main active segments in the Vrancea intermediate-depth domain, at 55 – 105 km and 105 – 180 km, both able to generate major events. The configuration of the tectonic stresses as resulted from inversion is similar in both segments. Also, high fault instability (I > 0.95) is characterizing the segments. The only notable difference is given by the friction and stress ratio parameters which drop down in the bottom segment from μ = 0.95 to μ = 0.55 and from R = 0.51 to R = 0.29. This variation is attributed to possible weakening processes activated below 100 km depth and can explain the intensification of seismicity production as earthquake rate and average energy release in the lower segment versus the upper segment.
Highlights
There are a few areas in the world characterized by localized intermediate-depth seismic activity where earthquakes are generated in subducted lithosphere far from the plate boundaries [Prieto et al, 2012]
The purpose of the present study is to employ a comprehensive set of fault-plane solutions available for the Vrancea intermediate-depth and crustal earthquakes [Bala et al, 2019] in order to emphasize the stress characteristics in the subducted lithosphere and overlying crust in connection with the geodynamic processes responsible for generating the seismicity at the South-Eastern Carpathians Arc bend
In order to apply inversion procedure, we set the partition of VNI following three rules: using regular cells, following the particular geometric configuration of the Vrancea seismogenic volume and including almost all the Vrancea intermediate-depth earthquakes (Table 1 and Figure 3)
Summary
There are a few areas in the world characterized by localized intermediate-depth seismic activity where earthquakes are generated in subducted lithosphere far from the plate boundaries [Prieto et al, 2012]. Among these we mention Bucaramanga (Colombia), Hindu Kush (Afghanistan) and Vrancea (Romania). In Vrancea, earthquakes of moment-magnitude (Mw) up to 7.9 (INFP, 2020) occur in an almost vertically oriented lithosphere body from around 60 km to around 180 km depth (Figures 1 and 2). The migration of depocenters towards the foreland and of the volcanism southwards along the inner side of the Carpathians are most probably related to evolution in time and space of the continuous gravitational pull exerted by the Vrancea sub-crustal high-velocity body. The migration of depocenters towards the foreland and of the volcanism southwards along the inner side of the Carpathians are most probably related to evolution in time and space of the continuous gravitational pull exerted by the Vrancea sub-crustal high-velocity body. 2
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