E. Popescu’s research while affiliated with National Institute for Earth Physics and other places

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Publications (62)


SOURCE PARAMETERS, CLUSTERING AND SCALING PROPERTIES FOR THE VRANCEA (ROMANIA) SUBCRUSTAL EARTHQUAKES RECORDED BETWEEN 2016 AND 2018
  • Conference Paper

December 2021

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17 Reads

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Emilia Popescu

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Figure 1. (a) Main geological units within the epicentral area (modified after [3]) and epicenters distribution (blue dots) of the seismic events associated with the 2014 Mărăşeşti sequence. The inset map shows the study area (pink square) displayed at the regional scale. The red line represents three vertical cross-sections crossing the epicentral area. (b) Seismic activity at the SE Carpathians Arc bend according to the ROMPLUS catalogue (between 2010 and 2014, [4]) colored function of depth (intermediate-depth events in black and crustal earthquakes within the color scale-right side), seismic stations distribution (blue triangles) and neighboring cities. The white dashed lines represent the local fault system; the black line shows the Pericarpathian Fault. The inset map shows a zoom of the epicentral area. The red star shows the mainshock epicenter. The abbreviations are as follows: VR-Vrancea Zone, IMF-Intra-Moesian Fault, PCF-Peceneaga-Camena Fault, AMRR-Amara, PGOR-Pogoanele, TLB-Topalu seismic stations.
Figure 5. The fault plane solutions computed using (a) FOCMEC and (b) HASH algorithms, for 19 earthquakes of the sequence that are listed in Table 2. Beach-balls are displayed as a function of magnitude. The circles show earthquake epicenters with outline color as a function of depth.
Figure 7. Examples of source time functions computed for the sequence occurred in the Mărășești area: (a) deconvolution of M of 22 November 2014, 19:14 with EGF of 22 November 2014, 20:30 at Pogoanele (PGOR) and (b) Amara (AMRR) stations. (c) deconvolution of M of 19 January 2015, 23:53 with EGF of 20 January 2015, 02:52 at all stations (left side) and the average of these pulses (right side). The dashed lines represent the standard error.
Figure 11. Frequency-magnitude distribution computed for four-time intervals: (a) 2005-2011; (b) 2011-2014; (c) 100 days since 22 November 2014; (d) 2015-2020.
Selected main (bold characters) and associated EGF events.

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Earthquake Source Properties of a Lower Crust Sequence and Associated Seismicity Perturbation in the SE Carpathians, Romania, Collisional Setting
  • Article
  • Full-text available

April 2021

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417 Reads

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5 Citations

Acoustics

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Emilia Popescu

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[...]

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Romanian seismicity is mainly confined to the Eastern Carpathians Arc bend (ECAB), where strong subcrustal earthquakes (magnitude up to 7.9) are generated in a narrow lithospheric body descending into the mantle. The seismic activity in the overlying crust is spread over a larger area, located mostly toward the outer side of the ECAB. It is significantly smaller than subcrustal seismicity, raising controversies about possible upper mantle-crust coupling. A significant earthquake sequence took place in the foreland of the ECAB triggered on 22 November 2014 by a mainshock of magnitude 5.7 (the greatest instrumentally recorded earthquake in this region) located in the lower crust. The mainshock triggered a significant increase in the number of small-magnitude events spread over an unusually large area in the ECAB. The paper’s goal is to compute the source parameters of the earthquakes that occurred during the aforementioned sequence, by empirical application of Green’s function and spectral ratio techniques. Fault plane solutions are determined using multiple methods and seismicity evolution at regional scale is investigated. Our results highlight a still active deformation regime at the edge of the EE Craton, while the source parameters reveal a complex fracture of the mainshock and a very high-stress drop.

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GROUND MOTION PREDICTION AT THE DAM SITES IN SW ROMANIA FOR MODERATE VRANCEA SUBCRUSTAL EARTHQUAKES

February 2020

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251 Reads

SWS Journal of EARTH AND PLANETARY SCIENCES

The seismic hazard studies of the last 30 years have been largely carried out taking into account the needs of the construction engineers, by linking the specific quantities of soil movement with the physical parameters determined instrumentally, namely, with the maximum values of soil acceleration. At present, interest in the results of hazard studies has increased and has extended to other areas such as insurance or design companies, environmental protection, etc. A fundamental element in the estimation of seismic hazard is the variation of the amplitude of the movement of the soil according to the distance, magnitude and local conditions. To understand and prevent the effects of the strong Vrancea earthquakes in the dam sites located in the South West of Romania, we study the seismic waves attenuation relations using the accelerations recorded by the national network of K2 accelerometers, following the moderate Vrancea intermediate earthquakes. The study area includes the largest agglomeration of dams in Romania, with almost 100 dams out of the 250 large dams. One of the most important specific requirements towards dams' safety is the seismic risk and hazard assessment and the computation of attenuation relationships is one of the most important steps of the work. The main objective of the present work is the evaluation of the specific attenuation relationships of the seismic wave propagating from Vrancea subcrustal focus toward south-west, with direct application for the dams situated in the area.



Revised catalogue of earthquake mechanisms for the events occurred in Romania until the end of twentieth century: REFMC

December 2018

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172 Reads

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24 Citations

Acta Geodaetica et Geophysica

The purpose of this paper is to present the most comprehensive catalogue of focal mechanisms for Romanian earthquakes which occurred between 1929 and 2000 in the Carpathian Orogen, the Moesian and Moldavian Platforms, and the Transylvanian Basin. The present catalogue (REFMC) is a first step toward creating a centralized and continuous database of earthquake mechanisms in Romania by revising and updating existing data for the twentieth century, which together with the Romanian earthquake catalogue (ROMPLUS)—continuously updated by the National Institute for Earth Physics, provides the fundamental information for any seismicity or seismic hazard assessment. In order to produce a close-to definitive version compatible with more recent and less uncertain focal mechanisms solutions, we revised multiple sets of data (some of which newly found), recalculated and corrected some of the fault-plane solutions and reached a consensus. The catalogue comprises 250 crustal events and 416 intermediate-depth events recorded in the twentieth century starting from 1929. On the basis of the new catalogue data and seismotectonic investigation, we propose a reconfiguration of the seismogenic zones located along Southern Carpathians toward the western side of Romania. Article link: https://rdcu.be/bcF1c


EARTHQUAKE MECHANISM IN THE VRANCEA SUBCRUSTAL SOURCE AND IN THE ADJACENT CRUSTAL SEISMOGENIC ZONES OF THE SOUTH- EASTERN ROMANIA

July 2018

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286 Reads

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3 Citations

Romanian Reports in Physics

Earthquake mechanism information is fundamental to determine the stress field and to define seismogenic zones. At the same time, it is a basic input to compute seismic hazard by deterministic approach. The present paper extends the catalogue of the fault plane solutions for the earthquakes in Romania, previously completed until 1997, for 1998-2012 time interval. The catalogue is limited geographically to the Carpathians Orogeny and extra-Carpathians area located in the southeastern part of Romania because similar investigations cover the rest of the country. The catalogue comprises 259 intermediate-depth seismic events and 90 crustal seismic events, recorded in the considered time interval with acceptably constrained fault plane solutions. We use specific graphical tools in order to emphasize statistically representative features of the stress field as coming out from our results. The fault plane solutions of the Vrancea earthquakes generated in a confined sinking plate in the mantle reflect the dominant geodynamic process in the study region. The typical features revealed by all the previous studies on the subcrustal seismic activity (predominant dip-slip, reverse faulting, characterizing both the weak and strong earthquakes) are reproduced as well by our investigation. As concerns the earthquake activity in the crust, a few new refined aspects are highlighted in the present work: (1) a deficit of the strike-slip component over the entire Carpathians foredeep area, (2) different stress field pattern in the Făgăraş-Câmpulung zone as compared with the Moesian Platform and Pre-Dobrogean and Bârlad Depressions, (3) a larger range for the dip angle of the nodal planes in the Vrancea subcrustal source, ~ 40 0-70 0 against ~ 70 0 , as commonly considered.


Table 1 .
Fig. 2. Angular diagrams for azimuth and dip angles of the nodal planes-Vrancea subcrustal source (VNI). 
Fig. 3. Diagram for P, T and B principal axes distribution for Vrancea zone (VNI). Top: all the events; bottom: only events with at least 30 reliable polarities. The dots are proportional to M w magnitude; to the right, the color scale represents the depths of the events in km. 
Fig. 4. Ternary diagram for P, T and B principal axes distribution for Moesian Platform seismogenic area. 
Earthquake mechanism in the Vrancea subcrustal source and in the adjacent crustal seismogenic zones of the south-eastern Romania

April 2018

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505 Reads

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3 Citations

Romanian Reports in Physics

Earthquake mechanism information is fundamental to determine the stress field and to define seismogenic zones. At the same time, it is a basic input to compute seismic hazard by deterministic approach. The present paper extends the catalogue of the fault plane solutions for the earthquakes in Romania, previously completed until 1997, for 1998-2012 time interval. The catalogue is limited geographically to the Carpathians Orogeny and extra-Carpathians area located in the southeastern part of Romania because similar investigations cover the rest of the country. The catalogue comprises 259 intermediate-depth seismic events and 90 crustal seismic events, recorded in the considered time interval with acceptably constrained fault plane solutions. We use specific graphical tools in order to emphasize statistically representative features of the stress field as coming out from our results. The fault plane solutions of the Vrancea earthquakes generated in a confined sinking plate in the mantle reflect the dominant geodynamic process in the study region. The typical features revealed by all the previous studies on the subcrustal seismic activity (predominant dip-slip, reverse faulting, characterizing both the weak and strong earthquakes) are reproduced as well by our investigation. As concerns the earthquake activity in the crust, a few new refined aspects are highlighted in the present work: (1) a deficit of the strike-slip component over the entire Carpathians foredeep area, (2) different stress field pattern in the Făgăraş-Câmpulung zone as compared with the Moesian Platform and Pre-Dobrogean and Bârlad Depressions, (3) a larger range for the dip angle of the nodal planes in the Vrancea subcrustal source, ~ 40 0-70 0 against ~ 70 0 , as commonly considered.


Catalogue of Earthquake Mechanism and Correlation with the Most Active Seismic Zones in South-Eastern Part of Romania

March 2018

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718 Reads

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3 Citations

Earthquake mechanism and fault plane solution information is fundamental to determine the stress field and to define seismogenic and active tectonic zones. At the same time, it is a basic input to compute seismic hazard by deterministic approach. The purpose of this paper is to update the catalogue of the fault plane solutions for Romanian earthquakes for the time interval 1998–2012. The catalogue is limited geographically to the Carpathians Orogeny and extra-Carpathians area located in the south—eastern part of Romania. The catalogue comprises 259 intermediate-depth seismic events and 90 crustal seismic events, covering the study time interval. All the existing information is considered and revised. The fault plane solutions of the Vrancea earthquakes generated in a confined sinking plate in the mantle reflect the dominant geodynamic process in the study region. The typical features revealed by all the previous studies on the subcrustal seismic activity (predominant dip-slip, reverse faulting, characterizing both the weak and strong earthquakes) are reproduced as well by our investigation. As concerns the earthquake activity in the crust, a few new refined aspects are highlighted in the present work: (1) a deficit of the strike-slip component over the entire Carpathians foredeep area, (2) different stress field pattern in the Făgăraş—Câmpulung zone as compared with the Moesian Platform and Pre-Dobrogean and Bârlad Depressions, (3) a larger range for the dip angle of the nodal planes in the Vrancea subcrustal source, ~400–700 against ~700, as commonly considered.


Earthquake mechanism and characterization of seismogenic zones in south-eastern part of Romania

March 2018

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718 Reads

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19 Citations

Annals of geophysics = Annali di geofisica

Earthquake mechanism information is fundamental to determine the stress field and to define seismogenic zones. At the same time, it is a basic input to compute seismic hazard by deterministic approach. The present paper extends the catalogue of the fault plane solutions for the earthquakes in Romania, previously completed until 1997, for 1998 – 2012 time interval. The catalogue is limited geographically to the Carpathians Orogeny and extra-Carpathians area located in the southeastern part of Romania because similar investigations cover the rest of the country. The catalogue comprises 259 intermediate-depth seismic events and 90 crustal seismic events, recorded in the considered time interval with acceptably constrained fault plane solutions (minimum 10 reliable polarities, small ratio of rejected polarities versus input polarities and non-zero focal depth). We use specific graphical tools in order to emphasize statistically representative features of the stress field as coming out from our results. The fault plane solutions of the Vrancea earthquakes generated in a confined sinking plate in the mantle reflect the dominant geodynamic process in the study region. The typical features revealed by all the previous studies on the subcrustal seismic activity (predominant dip-slip, reverse faulting, characterizing both the weak and strong earthquakes) are reproduced as well by our investigation. As concerns the earthquake activity in the crust, a few new refined aspects are highlighted in the present work: (1) a deficit of the strike-slip component over the entire Carpathians foredeep area, (2) different stress field pattern in the Făgăraş – Câmpulung zone as compared with the Moesian Platform and Pre-Dobrogean and Bârlad Depressions, (3) a larger range for the dip angle of the nodal planes in the Vrancea subcrustal source, ~ 40° -70° against ~ 70°, as commonly considered. © 2018 by the Istituto Nazionale di Geofisica e Vulcanologia. All rights reserved.


Figure 1 of 1
Catalogue of Earthquake Mechanism and Correlation with the Most Active Seismic Zones in South-Eastern Part of Romania. In: Vacareanu R., Ionescu C. (eds) Seismic Hazard and Risk Assessment. Springer Natural Hazards. Springer, Cham

January 2018

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194 Reads

Abstract Earthquake mechanism and fault plane solution information is fundamental to determine the stress field and to define seismogenic and active tectonic zones. At the same time, it is a basic input to compute seismic hazard by deterministic approach. The purpose of this paper is to update the catalogue of the fault plane solutions for Romanian earthquakes for the time interval 1998–2012.


Citations (37)


... Concerning the nodal planes, it is noteworthy that the main direction of the rupture processes is parallel to the Carpathians Arc Bend (along NE-SW) and the plunge angles are generally larger than 40 degrees ( Fig. 3 in Popescu et al., 2018). Nevertheless, the smaller seismic events indicate a perpendicular propagation, oriented NW-SE Radulian et al., 2018). ...

Reference:

Cluster Analysis for the Study of Stress Patterns in the Vrancea-Zone (SE-Carpathians)
EARTHQUAKE MECHANISM IN THE VRANCEA SUBCRUSTAL SOURCE AND IN THE ADJACENT CRUSTAL SEISMOGENIC ZONES OF THE SOUTH- EASTERN ROMANIA

Romanian Reports in Physics

... We conclude that installation of new seismic sensor in around Opak Fault can decrease the Mc value. This result is consistent with previous research, which states that the decrease of Mc is directly related to to the seismic network improvements to monitor seismicity in the region [24,25]. The frequency magnitude distribution of both catalogs yields general b-value and a-value as well . ...

Earthquake Source Properties of a Lower Crust Sequence and Associated Seismicity Perturbation in the SE Carpathians, Romania, Collisional Setting

Acoustics

... occurring close to Targu Jiu. More recently, Radulian et al. (2019) and Bala et al. (2019) defined a separate seismogenic zone (the Central segment of the Southern Carpathians -CSC) with potential of generating significant earthquakes, in order to fill the gap between the Fagaras-Campulung (East) and Danubian (West) zones. The seismic activity after 2000 (Radulian et al. 2014;Placinta et al. 2016) confirms the capability of this segment to generate significant earthquakes. ...

Revised catalogue of earthquake mechanisms for the events occurred in Romania until the end of twentieth century: REFMC
  • Citing Article
  • December 2018

Acta Geodaetica et Geophysica

... To date, FMC has been used in several research projects and publications analysing the seismotectonics of areas [55][56][57][58][59][60][61][62][63][64] or seismic series [65][66][67][68]. The software is normally used to classify the events according to rupture type in an area or seismic series, which used to be accompanied by a diagram showing DC classification, and then an additional analysis or modelling is performed. ...

Earthquake mechanism in the Vrancea subcrustal source and in the adjacent crustal seismogenic zones of the south-eastern Romania

Romanian Reports in Physics

... The concerned Carpathians Mountains foreland basement is built up of two distinct lithospheric plates: the east European plate to the north-northeast and the Moesian plate to the south-southwest (Fig. 1), which are separated by a regional system of northwest-southeast-oriented fractures (the so-called Trotuş and Peceneaga-Camena faults). In coincidence with that contact, a shallow seismicity domain, designated (Raileanu et al., 2007) as the Mărăşeşti-Galaţi-Brăila lineament (hereafter MGBL), has also been delineated. ...

CRUSTAL SEISMICITY AND ACTIVE FAULT SYSTEM IN THE SE OF ROMANIA

... However, their presence cannot be excluded, according to recent studies (Šilhán and Feher, 2022;Š ilhán et al., 2022b). Our area is located within the Fȃgȃraş-Câmpulung seismic zone (Bȃlȃ et al., 2018). Earthquakes are considered to be non-periodic factors that can contribute to the triggering of creep movements. ...

Catalogue of Earthquake Mechanism and Correlation with the Most Active Seismic Zones in South-Eastern Part of Romania

... 2 and 3). In the ND region, faults associated with this zone are oriented NW-SE and are seismically active (Bala et al., 2003;Amashukeli et al., 2019;Radulian et al., 2018). ...

Earthquake mechanism and characterization of seismogenic zones in south-eastern part of Romania

Annals of geophysics = Annali di geofisica

... Note that the obtained results show that low-frequency level, a, and the corner frequency of the EGF (f c G ) show a higher variation since they depend on the earthquake pair, while for the main event the corner frequency (f c M ) should not be influenced by the pair of the events if source directivity effects are negligible. This feature is similar to the results pointed out by previous studies [58]. ...

Empirical green’s function deconvolution applied for Vrancea earthquakes occurred in the last ten years

Environmental Engineering and Management Journal

... The recent rapid evolution of the Southeastern Carpathians area assumes such a rapid cyclicity and could explain how fast fluid supply is provided from the lower crust into the upper-level carbonate bearing sediments. Furthermore, the frequent high magnitude mantle and crustal earthquakes initiated in the vicinity of the sinking Vrancea slab (Popescu et al., 2017;Ferrand and Manea, 2021) further destabilize the environment and increases the grain surface misfit within the weakening zones. ...

Repeated Earthquakes in the Vrancea Subcrustal Source and Source Scaling

IOP Conference Series Earth and Environmental Science

... 53 Еxperimental research through numerical modeling and simulation under different 54 scenarios is a necessary step to clarify the tsunamigenic potential in the Black Sea region 55 due to the small number of tsunamis documented in the chronicles and the limited num- 56 ber of recorded post-earthquake events through continuous tide-gauge observations 57 along the coast [14][15][16][17]. Many studies have been published in the scientific literature using 58 different software programs for single or multiple-event numerical model simulations, 59 different input parameters for earthquakes or other sources generating tsunamis 60 (subaerial or submarine landslides, meteorological phenomena, etc.), various scenarios, 61 and different spatial and temporal resolutions of the data used [18][19][20][21][22][23][24][25]. However, targeted 62 studies of seismogenic faults as a major source that can trigger tsunamis are very rare. ...

PROBABILISTIC SEISMIC HAZARD ASSESSMENT IN THE BLACK SEA AREA

Romanian Journal of Physics