ACTIVE FAULT SYSTEMS IN THE SHABLA REGION (BULGARIA) AS INTERPRETED ON GEOPHYSICAL AND SEISMICITY DATA

Shabla region is located in NE Bulgaria and belongs from the tectonic point of view to the south-eastern part of the Moesian Platform. The study area covers parts of the eastern slope of the North Bulgarian arch, having the Bulgarian–Romanian border to the north, Cape Kaliakra to the south, Dobrich...

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Main Authors: IRINA STANCIU, DUMITRU IOANE
Format: Text
Language:English
Published: Zenodo 2021
Subjects:
geophysical data interpretation, regional seismicity, active faults, regional tectonics, Moesian Platform.
North Cape
Lopez
Weir
Novak
Popa
Stepanova
Online Access:https://dx.doi.org/10.5281/zenodo.4543083
https://zenodo.org/record/4543083
id ftdatacite:10.5281/zenodo.4543083
record_format openpolar
institution Open Polar
collection DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id ftdatacite
language English
topic geophysical data interpretation, regional seismicity, active faults, regional tectonics, Moesian Platform.
spellingShingle geophysical data interpretation, regional seismicity, active faults, regional tectonics, Moesian Platform.
IRINA STANCIU
DUMITRU IOANE
ACTIVE FAULT SYSTEMS IN THE SHABLA REGION (BULGARIA) AS INTERPRETED ON GEOPHYSICAL AND SEISMICITY DATA
topic_facet geophysical data interpretation, regional seismicity, active faults, regional tectonics, Moesian Platform.
description Shabla region is located in NE Bulgaria and belongs from the tectonic point of view to the south-eastern part of the Moesian Platform. The study area covers parts of the eastern slope of the North Bulgarian arch, having the Bulgarian–Romanian border to the north, Cape Kaliakra to the south, Dobrich city to the west, and the Black Sea shelf to the east. Block faulting, horsts and grabens of different rank are the typical structural features. The crustal-scale Intramoesian Fault, considered to separate the Moesian Platform in two main compartments, reaches the Black Sea continental shelf in Shabla region, its path being ambiguously located on maps, as it does not outcrop. Analysis of regional seismicity data available from ROMPLUS Earthquake Catalogue and EMSC Earthquake Catalogue, integrated with available tectonic and geophysical data, as well as with geological, geomorphological and neotectonic field observations, offered the possibility to interpret W–E, NE–SW and NW–SE active fault systems within the study area and build the grounds for a much more comprehensive understanding of this region’s tectonics. : {"references": ["AIRINEI, \u015eT., STOENESCU, S., VELCESCU, G., ROMANESCU, D., VISARION, M., R\u0102DAN, S., ROTH, M., BE\u015eU\u0162IU, L., BE\u015eU\u0162IU, G. (1983), Magnetic Anomalies Map (\u0394Za) of Romania, scale 1:1000000, Geological Institute of Romania, Bucharest (in Romanian).", "ALEXIEV, G. (2000), The role of destructive taphrogenesis in shaping the morphostructural pattern of Bulgaria's territory. Revista de geomorfologie, Vol. 2, Bucuresti, pp. 9\u201314.", "BENDEREV, A., HRISTOV, V., BOJADGIEVA, K., MIHAILOVA, B. (2016), Thermal Waters in Bulgaria. In: P. Papi\u0107 (Ed.), Mineral and Thermal Waters of Southeastern Europe, Environmental Earth Sciences, DOI 10.1007/978-3-319-25379-4_3, pp. 47\u201364, Springer International Publishing Switzerland.", "BONCEV, E. (1974), Moesian Platform. In: Tectonics of the Carpathian Balkan regions, Platforms of the foreland, pp. 449\u2013453, Geological Institute of Dionyz Stur, Bratislava.", "BOTOUCHAROV, N., ANGELOVA, M. (2015), Thermal Maturity of Middle Triassic Rocks and Heat Flow Modeling in Agatovo-Suhindol Area (Central North Bulgaria).", "BOTTOMLEY, S., PRITCHARD, G. (1998), Tyulenovo field holds key to new drilling in Bulgaria. Oil & Gas Jurnal, 96, Issue 9, http://www.ogj.com/", "CIOC\u00c2RDEL, R., ESCA, A. (1966), Essa\u00ef de synth\u00e8se des donn\u00e9es, actuelles concertant les mouvements verticaux recents de l'ecorce terrestre en Roumanie. Rev. Roum. Geol., Geophys., Geogr., Serie de Geophysique, 10, 1, pp. 5\u201332.", "DABOVSKI, C., BOYANOV, I., KHRISCHEV, KH., NIKOLOV, T., SAPOUNOV, I., YANEV, Y., ZAGORCHEV, I. (2002), Structure and Alpine evolution of Bulgaria. Geologica Balcanica, 32.2 \u2013 4, pp. 9\u201315, Sofia.", "DIMITRIU, R.G., OAIE, G., RANGUELOV, B., RADICHEV, R. (2016), Maps of the gravity and magnetic anomalies for the western Black Sea continental margin (Romanian \u2013 Bulgarian sector). The 16th International Multidisciplinary Scientific GeoConference SGEM \u2013 2016, Vol. III, Book 1, pp. 537\u2013544, DOI: 10.13140/RG.2.1.1401.2405", "EMSC Earthquake Catalogue, http://www.emsc-csem.org, 2016.", "FINETTI, I., BRICCHI, G., DEL BEN, A., PIPAN, M., XUAN, Z. (1988), Geophysical study of the Black Sea. Boll. Geofis. Teor. Appl., 30, pp. 197\u2013324.", "HRISTOV, V., TOTOMANOV, I., VRABLIANSKI, B., BURILKOV, T. (1973), Map of the recent vertical movements in Bulgaria. Central Geodetic Laboratory BAS, Geological Institute BAS, Sofia.", "IOANE, D., DIACONESCU, M., CHITEA, F., G\u00c2RBACEA, G. (2014), Active Fault Systems and Their Significance for Urban Planning in Bucharest, Romania. In: Bo\u015ftenaru, D., Arma\u015f, I., Goretti, A. (Eds.), Earthquake Hazard Impact and Urban Planning, pp. 15\u201345, Springer.", "KUPRIN, P., BELBEROV, Z., KALININ, A., KANEV, D., KRUSTEV, T. (Eds.) (1980), Geological and geophysical researches in the Bulgarian Black Sea zone (in Russian, with English abstract), Publ. House Bulg. Acad. Sc. Sofia.", "MATOVA, M. (1999), Some geoindicators of recent geological activity along the northern Bulgarian coast (NE Bulgaria). Geoindicators, Workshop in Vilnius, Lithuania, http://www.lgt.lt/geoin/topic.php?tid=vilnius", "MATOVA, M. (2000), Recent geological activity along the northeastern Bulgarian Black Sea coast. Geological Quaterly, 44(4), pp. 355\u2013361, Polish Geological Institute, Warshaw, https://gq.pgi.gov.pl/article/ viewFile/8109/pdf_215", "NADOR, A. (2014), Danube Region geothermal report \u2013 Bulgaria, European Union Strategy for the Danube Region COM (2010) 715. Available at: http://www.danube-region.eu, pp. 35\u201336.", "OAIE, G., SEGHEDI, A., R\u0102DAN, S., VAIDA, M. (2005), Sedimentology and source area composition for the Neoproterozoic \u2013 Eocambrian turbidites from East Moesia. Geologica Belgica, 8/4, pp. 78\u2013105.", "ONCESCU, M.C., M\u00c2RZA, V.I., RIZESCU, M., POPA, M. (1999, updated), The Romanian earthquake catalogue between 1984\u20131996. In: Vrancea Earthquakes: Tectonics, Hazard and Risk Mitigation (Eds. Wenzel F., Lungu D., Novak O.), Kluwer Academic Publishers, pp. 42\u201349.", "PARASCHIV, D. (1979), The Moesian Platform and its Hydrocarbon Reservoirs. Romanian Academy Publishing House, Bucharest, 196 p. (in Romanian).", "PULIDO-BOSCH, A., LOPEZ-CHICANO, M., MACHKOVA, M., VELIKOV, B., DIMITROV, D., PENTCHEV, P., CALAFORRA, J.M. (1997a), 19 Shabla active fault systems 21 Ecological problems of karst waters caused by overexploitation and contamination \u2013 On the example of North-East Bulgaria. ERB-CIPA-CT93-0139 Project, coordinated by A. Pulido-Bosch, Professor of Hydrogeology University of Granada (Spain).", "PULIDO-BOSCH, A., MACHKOVA, M., LOPEZ-CHICANO, M., CALVACHE, M.L., DIMITROV, D., CALAFORRA, J.M., VELIKOV, B., PENTCHEV, P. (1997b), Hydrogeology of the Upper Aquifer, Dobrich Region (Northeastern Bulgaria). Hydrogeology Journal, 5, 2, pp. 75\u201385.", "ROGOZHIN, E.A., KARAZAKOVA, YU.V., GORBATIKOV, A.V., SHANOV, S., STEPANOVA, M.YU., MITEV, A. (2009), The Structure and Contemporary Activity of the Intramoesian Fault in Northeastern Bulgaria obtained through a Complex of New Geological-Geophysical Methods.", "S\u0102NDULESCU, M. (1984), Romanian Geotectonics, Technical Publishing House, Bucharest, 450 p. (in Romanian).", "S\u0102NDULESCU, M., VISARION M. (2000), Crustal structure and evolution of the Carpathian-Western Black Sea areas. First Break, 18, EAGE, pp. 103\u2013108.", "SEGHEDI, A. (1998), The Romanian Carpathian foreland. In: Sledzinski, J. (Ed.), Reports on Geodesy. Monograph of Southern Carpathians. Warsaw University of Technology, Institute of Geodesy and Geodetic Astronomy, pp. 21\u201348.", "SEGHEDI, A., VAIDA, M., IORDAN, M., VERNIERS, J. (2005), Paleozoic evolution of the Romanian part of the Moesian Platform: an overview. Geologica Belgica, 8/4, pp. 99\u2013120.", "SHANOV, S., BOYCOVA, A., MITEV, A. (2005), Intramoesian Fault on Bulgarian territory: available geophysical data. 4th Congress of the Balkan Geophysical Society, 9\u201312 October 2005, Bucharest, Romania, Journal of the Balkan Geophysical Society, 8, Suppl. 1, pp. 56\u201359.", "SHANOV, S., RADULOV, A. (2010), Seismotectonic model on geological data for 1892 Dulovo earthquake, Lower Danube valley. Scientific Annals, School of Geology, Aristotle University of Thessaloniki, Proceedings of the XIX CBGA Congress, Special volume, 100, pp. 191\u2013196.", "STANCIU, I.M. (2020), Intramoesian Fault: geophysical detection and regional active (neo)tectonics and geodynamics, PhD Thesis, University of Bucharest, Faculty of Geology and Geophysics (unpublished).", "STANCIU, I.M., IOANE, D. (2018), The Intramoesian Fault: tectonic contact at crustal and lithospheric depths? GEOSCIENCE \u2013 2018, Abstracts Volume.", "TARI, G., DICEA, O., FAULKERSON, J., GEORGIEV, G., POPOV, S., \u015eTEF\u0102NESCU, M., WEIR, G. (1997), Cimmerian and Alpine stratigraphy and structural evolution of the Moesian Platform. In: Robinson, A.G. (Ed.), Regional and Petroleum Geology of the Black Sea and Surrounding Regions. American Association of Petroleum Geologists, Memoir, 68, pp. 63\u201390.", "TRIFONOVA, P., SIMEONOVA, S., SOLAKOV, D., METODIEV, M. (2012), Exploring seismicity in Bulgaria using geomagnetic and gravity data. Comptes rendus de l'Acad\u00e9mie Bulgare des Sciences, 65, 5, pp. 661\u2013668.", "TRIFONOVA, P., SOLAKOV, D., SIMEONOVA, S., METODIEV, M., STAVREV, P. (2013), Regional pattern of the earth's crust dislocations on the territory of Bulgaria inferred from gravity data and its recognition in the spatial distribution of seismicity, Pattern Recogn. Phys., 1, pp. 25\u201336, doi:10.5194/prp-1-25-2013.", "VISARION, M., MAIER, O., NEDELCU-ION, C., ALEXANDRESCU, R. (1979), Structural model of the Palazu Mare metamorphites, as inferred from integrated analysis of geological, geophysical and petrophysical data. St. Cerc. Geol., Geofiz., Geogr., Geophysics, 17, 1, pp. 95\u2013113.", "VISARION, M., S\u0102NDULESCU, M., ST\u0102NICA, D., VELICIU, S. (1988), Contributions \u00e0 la connaissance de la structure profonde de la plateforme Mo\u00e9sienne en Roumanie. Stud. tehn. econ., Geofizica, 15, pp. 68\u201392.", "ZAGORCHEV, I., SABOVSKI, C., NIKOLOV, T. (Eds.) (2009), Geology of Bulgaria, Vol. 2 (PPT Presentation) https://www.researchgate.net/publication/266615718_ Presentation_Geology_of_Bulgaria_vol_2_Mesozoic_Geology"]}
format Text
author IRINA STANCIU
DUMITRU IOANE
author_facet IRINA STANCIU
DUMITRU IOANE
author_sort IRINA STANCIU
title ACTIVE FAULT SYSTEMS IN THE SHABLA REGION (BULGARIA) AS INTERPRETED ON GEOPHYSICAL AND SEISMICITY DATA
title_short ACTIVE FAULT SYSTEMS IN THE SHABLA REGION (BULGARIA) AS INTERPRETED ON GEOPHYSICAL AND SEISMICITY DATA
title_full ACTIVE FAULT SYSTEMS IN THE SHABLA REGION (BULGARIA) AS INTERPRETED ON GEOPHYSICAL AND SEISMICITY DATA
title_fullStr ACTIVE FAULT SYSTEMS IN THE SHABLA REGION (BULGARIA) AS INTERPRETED ON GEOPHYSICAL AND SEISMICITY DATA
title_full_unstemmed ACTIVE FAULT SYSTEMS IN THE SHABLA REGION (BULGARIA) AS INTERPRETED ON GEOPHYSICAL AND SEISMICITY DATA
title_sort active fault systems in the shabla region (bulgaria) as interpreted on geophysical and seismicity data
publisher Zenodo
publishDate 2021
url https://dx.doi.org/10.5281/zenodo.4543083
https://zenodo.org/record/4543083
long_lat ENVELOPE(165.700,165.700,-70.650,-70.650)
ENVELOPE(-63.567,-63.567,-64.850,-64.850)
ENVELOPE(177.167,177.167,-84.983,-84.983)
ENVELOPE(161.286,161.286,-77.284,-77.284)
ENVELOPE(-62.883,-62.883,-64.883,-64.883)
ENVELOPE(64.617,64.617,-73.550,-73.550)
geographic North Cape
Lopez
Weir
Novak
Popa
Stepanova
geographic_facet North Cape
Lopez
Weir
Novak
Popa
Stepanova
genre North Cape
genre_facet North Cape
op_relation https://dx.doi.org/10.5281/zenodo.4543084
op_rights Open Access
Creative Commons Attribution 4.0 International
https://creativecommons.org/licenses/by/4.0/legalcode
cc-by-4.0
info:eu-repo/semantics/openAccess
op_rightsnorm CC-BY
op_doi https://doi.org/10.5281/zenodo.4543083
https://doi.org/10.5281/zenodo.4543084
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spelling ftdatacite:10.5281/zenodo.4543083 2023-05-15T17:38:01+02:00 ACTIVE FAULT SYSTEMS IN THE SHABLA REGION (BULGARIA) AS INTERPRETED ON GEOPHYSICAL AND SEISMICITY DATA IRINA STANCIU DUMITRU IOANE 2021 https://dx.doi.org/10.5281/zenodo.4543083 https://zenodo.org/record/4543083 en eng Zenodo https://dx.doi.org/10.5281/zenodo.4543084 Open Access Creative Commons Attribution 4.0 International https://creativecommons.org/licenses/by/4.0/legalcode cc-by-4.0 info:eu-repo/semantics/openAccess CC-BY geophysical data interpretation, regional seismicity, active faults, regional tectonics, Moesian Platform. Text Journal article article-journal ScholarlyArticle 2021 ftdatacite https://doi.org/10.5281/zenodo.4543083 https://doi.org/10.5281/zenodo.4543084 2021-11-05T12:55:41Z Shabla region is located in NE Bulgaria and belongs from the tectonic point of view to the south-eastern part of the Moesian Platform. The study area covers parts of the eastern slope of the North Bulgarian arch, having the Bulgarian–Romanian border to the north, Cape Kaliakra to the south, Dobrich city to the west, and the Black Sea shelf to the east. Block faulting, horsts and grabens of different rank are the typical structural features. The crustal-scale Intramoesian Fault, considered to separate the Moesian Platform in two main compartments, reaches the Black Sea continental shelf in Shabla region, its path being ambiguously located on maps, as it does not outcrop. Analysis of regional seismicity data available from ROMPLUS Earthquake Catalogue and EMSC Earthquake Catalogue, integrated with available tectonic and geophysical data, as well as with geological, geomorphological and neotectonic field observations, offered the possibility to interpret W–E, NE–SW and NW–SE active fault systems within the study area and build the grounds for a much more comprehensive understanding of this region’s tectonics. : {"references": ["AIRINEI, \u015eT., STOENESCU, S., VELCESCU, G., ROMANESCU, D., VISARION, M., R\u0102DAN, S., ROTH, M., BE\u015eU\u0162IU, L., BE\u015eU\u0162IU, G. (1983), Magnetic Anomalies Map (\u0394Za) of Romania, scale 1:1000000, Geological Institute of Romania, Bucharest (in Romanian).", "ALEXIEV, G. (2000), The role of destructive taphrogenesis in shaping the morphostructural pattern of Bulgaria's territory. Revista de geomorfologie, Vol. 2, Bucuresti, pp. 9\u201314.", "BENDEREV, A., HRISTOV, V., BOJADGIEVA, K., MIHAILOVA, B. (2016), Thermal Waters in Bulgaria. In: P. Papi\u0107 (Ed.), Mineral and Thermal Waters of Southeastern Europe, Environmental Earth Sciences, DOI 10.1007/978-3-319-25379-4_3, pp. 47\u201364, Springer International Publishing Switzerland.", "BONCEV, E. (1974), Moesian Platform. In: Tectonics of the Carpathian Balkan regions, Platforms of the foreland, pp. 449\u2013453, Geological Institute of Dionyz Stur, Bratislava.", "BOTOUCHAROV, N., ANGELOVA, M. (2015), Thermal Maturity of Middle Triassic Rocks and Heat Flow Modeling in Agatovo-Suhindol Area (Central North Bulgaria).", "BOTTOMLEY, S., PRITCHARD, G. (1998), Tyulenovo field holds key to new drilling in Bulgaria. Oil & Gas Jurnal, 96, Issue 9, http://www.ogj.com/", "CIOC\u00c2RDEL, R., ESCA, A. (1966), Essa\u00ef de synth\u00e8se des donn\u00e9es, actuelles concertant les mouvements verticaux recents de l'ecorce terrestre en Roumanie. Rev. Roum. Geol., Geophys., Geogr., Serie de Geophysique, 10, 1, pp. 5\u201332.", "DABOVSKI, C., BOYANOV, I., KHRISCHEV, KH., NIKOLOV, T., SAPOUNOV, I., YANEV, Y., ZAGORCHEV, I. (2002), Structure and Alpine evolution of Bulgaria. Geologica Balcanica, 32.2 \u2013 4, pp. 9\u201315, Sofia.", "DIMITRIU, R.G., OAIE, G., RANGUELOV, B., RADICHEV, R. (2016), Maps of the gravity and magnetic anomalies for the western Black Sea continental margin (Romanian \u2013 Bulgarian sector). The 16th International Multidisciplinary Scientific GeoConference SGEM \u2013 2016, Vol. III, Book 1, pp. 537\u2013544, DOI: 10.13140/RG.2.1.1401.2405", "EMSC Earthquake Catalogue, http://www.emsc-csem.org, 2016.", "FINETTI, I., BRICCHI, G., DEL BEN, A., PIPAN, M., XUAN, Z. (1988), Geophysical study of the Black Sea. Boll. Geofis. Teor. Appl., 30, pp. 197\u2013324.", "HRISTOV, V., TOTOMANOV, I., VRABLIANSKI, B., BURILKOV, T. (1973), Map of the recent vertical movements in Bulgaria. Central Geodetic Laboratory BAS, Geological Institute BAS, Sofia.", "IOANE, D., DIACONESCU, M., CHITEA, F., G\u00c2RBACEA, G. (2014), Active Fault Systems and Their Significance for Urban Planning in Bucharest, Romania. In: Bo\u015ftenaru, D., Arma\u015f, I., Goretti, A. (Eds.), Earthquake Hazard Impact and Urban Planning, pp. 15\u201345, Springer.", "KUPRIN, P., BELBEROV, Z., KALININ, A., KANEV, D., KRUSTEV, T. (Eds.) (1980), Geological and geophysical researches in the Bulgarian Black Sea zone (in Russian, with English abstract), Publ. House Bulg. Acad. Sc. Sofia.", "MATOVA, M. (1999), Some geoindicators of recent geological activity along the northern Bulgarian coast (NE Bulgaria). Geoindicators, Workshop in Vilnius, Lithuania, http://www.lgt.lt/geoin/topic.php?tid=vilnius", "MATOVA, M. (2000), Recent geological activity along the northeastern Bulgarian Black Sea coast. Geological Quaterly, 44(4), pp. 355\u2013361, Polish Geological Institute, Warshaw, https://gq.pgi.gov.pl/article/ viewFile/8109/pdf_215", "NADOR, A. (2014), Danube Region geothermal report \u2013 Bulgaria, European Union Strategy for the Danube Region COM (2010) 715. Available at: http://www.danube-region.eu, pp. 35\u201336.", "OAIE, G., SEGHEDI, A., R\u0102DAN, S., VAIDA, M. (2005), Sedimentology and source area composition for the Neoproterozoic \u2013 Eocambrian turbidites from East Moesia. Geologica Belgica, 8/4, pp. 78\u2013105.", "ONCESCU, M.C., M\u00c2RZA, V.I., RIZESCU, M., POPA, M. (1999, updated), The Romanian earthquake catalogue between 1984\u20131996. In: Vrancea Earthquakes: Tectonics, Hazard and Risk Mitigation (Eds. Wenzel F., Lungu D., Novak O.), Kluwer Academic Publishers, pp. 42\u201349.", "PARASCHIV, D. (1979), The Moesian Platform and its Hydrocarbon Reservoirs. Romanian Academy Publishing House, Bucharest, 196 p. (in Romanian).", "PULIDO-BOSCH, A., LOPEZ-CHICANO, M., MACHKOVA, M., VELIKOV, B., DIMITROV, D., PENTCHEV, P., CALAFORRA, J.M. (1997a), 19 Shabla active fault systems 21 Ecological problems of karst waters caused by overexploitation and contamination \u2013 On the example of North-East Bulgaria. ERB-CIPA-CT93-0139 Project, coordinated by A. Pulido-Bosch, Professor of Hydrogeology University of Granada (Spain).", "PULIDO-BOSCH, A., MACHKOVA, M., LOPEZ-CHICANO, M., CALVACHE, M.L., DIMITROV, D., CALAFORRA, J.M., VELIKOV, B., PENTCHEV, P. (1997b), Hydrogeology of the Upper Aquifer, Dobrich Region (Northeastern Bulgaria). Hydrogeology Journal, 5, 2, pp. 75\u201385.", "ROGOZHIN, E.A., KARAZAKOVA, YU.V., GORBATIKOV, A.V., SHANOV, S., STEPANOVA, M.YU., MITEV, A. (2009), The Structure and Contemporary Activity of the Intramoesian Fault in Northeastern Bulgaria obtained through a Complex of New Geological-Geophysical Methods.", "S\u0102NDULESCU, M. (1984), Romanian Geotectonics, Technical Publishing House, Bucharest, 450 p. (in Romanian).", "S\u0102NDULESCU, M., VISARION M. (2000), Crustal structure and evolution of the Carpathian-Western Black Sea areas. First Break, 18, EAGE, pp. 103\u2013108.", "SEGHEDI, A. (1998), The Romanian Carpathian foreland. In: Sledzinski, J. (Ed.), Reports on Geodesy. Monograph of Southern Carpathians. Warsaw University of Technology, Institute of Geodesy and Geodetic Astronomy, pp. 21\u201348.", "SEGHEDI, A., VAIDA, M., IORDAN, M., VERNIERS, J. (2005), Paleozoic evolution of the Romanian part of the Moesian Platform: an overview. Geologica Belgica, 8/4, pp. 99\u2013120.", "SHANOV, S., BOYCOVA, A., MITEV, A. (2005), Intramoesian Fault on Bulgarian territory: available geophysical data. 4th Congress of the Balkan Geophysical Society, 9\u201312 October 2005, Bucharest, Romania, Journal of the Balkan Geophysical Society, 8, Suppl. 1, pp. 56\u201359.", "SHANOV, S., RADULOV, A. (2010), Seismotectonic model on geological data for 1892 Dulovo earthquake, Lower Danube valley. Scientific Annals, School of Geology, Aristotle University of Thessaloniki, Proceedings of the XIX CBGA Congress, Special volume, 100, pp. 191\u2013196.", "STANCIU, I.M. (2020), Intramoesian Fault: geophysical detection and regional active (neo)tectonics and geodynamics, PhD Thesis, University of Bucharest, Faculty of Geology and Geophysics (unpublished).", "STANCIU, I.M., IOANE, D. (2018), The Intramoesian Fault: tectonic contact at crustal and lithospheric depths? GEOSCIENCE \u2013 2018, Abstracts Volume.", "TARI, G., DICEA, O., FAULKERSON, J., GEORGIEV, G., POPOV, S., \u015eTEF\u0102NESCU, M., WEIR, G. (1997), Cimmerian and Alpine stratigraphy and structural evolution of the Moesian Platform. In: Robinson, A.G. (Ed.), Regional and Petroleum Geology of the Black Sea and Surrounding Regions. American Association of Petroleum Geologists, Memoir, 68, pp. 63\u201390.", "TRIFONOVA, P., SIMEONOVA, S., SOLAKOV, D., METODIEV, M. (2012), Exploring seismicity in Bulgaria using geomagnetic and gravity data. Comptes rendus de l'Acad\u00e9mie Bulgare des Sciences, 65, 5, pp. 661\u2013668.", "TRIFONOVA, P., SOLAKOV, D., SIMEONOVA, S., METODIEV, M., STAVREV, P. (2013), Regional pattern of the earth's crust dislocations on the territory of Bulgaria inferred from gravity data and its recognition in the spatial distribution of seismicity, Pattern Recogn. Phys., 1, pp. 25\u201336, doi:10.5194/prp-1-25-2013.", "VISARION, M., MAIER, O., NEDELCU-ION, C., ALEXANDRESCU, R. (1979), Structural model of the Palazu Mare metamorphites, as inferred from integrated analysis of geological, geophysical and petrophysical data. St. Cerc. Geol., Geofiz., Geogr., Geophysics, 17, 1, pp. 95\u2013113.", "VISARION, M., S\u0102NDULESCU, M., ST\u0102NICA, D., VELICIU, S. (1988), Contributions \u00e0 la connaissance de la structure profonde de la plateforme Mo\u00e9sienne en Roumanie. Stud. tehn. econ., Geofizica, 15, pp. 68\u201392.", "ZAGORCHEV, I., SABOVSKI, C., NIKOLOV, T. (Eds.) (2009), Geology of Bulgaria, Vol. 2 (PPT Presentation) https://www.researchgate.net/publication/266615718_ Presentation_Geology_of_Bulgaria_vol_2_Mesozoic_Geology"]} Text North Cape DataCite Metadata Store (German National Library of Science and Technology) North Cape ENVELOPE(165.700,165.700,-70.650,-70.650) Lopez ENVELOPE(-63.567,-63.567,-64.850,-64.850) Weir ENVELOPE(177.167,177.167,-84.983,-84.983) Novak ENVELOPE(161.286,161.286,-77.284,-77.284) Popa ENVELOPE(-62.883,-62.883,-64.883,-64.883) Stepanova ENVELOPE(64.617,64.617,-73.550,-73.550)

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