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Geological Society, London, Special Publications; 2006; v. 260; p. 671-687;
DOI: 10.1144/GSL.SP.2006.260.01.29
© 2006 Geological Society of London

Major active faults of SW Bulgaria: implications of their geometry, kinematics and the regional active stress regime

Markos D. Tranos1, Vassilis G. Karakostas2, Eleftheria E. Papadimitriou2, Vladislav N. Kachev1, Boyko K. Ranguelov3 & Dragomir K. Gospodinov3

1 Department of Geology, School of Geology, Aristotle University of Thessaloniki, GR54124 Thessaloniki, Greece tranos{at}geo.auth.gr
2 Geophysics Department, School of Geology, Aristotle University of Thessaloniki, GR54124 Thessaloniki, Greece
3 Seismological Department, Geophysical Institute, Bulgarian Academy of Sciences, Sofia 1113, Bulgaria

Southwest Bulgaria is an intracontinental region between the Dinaro-Hellenic and Balkan mountain ranges that has experienced infrequent, but strong and destructive earthquakes. The general geometric and kinematic characteristics of the major faults, mainly the active ones, are investigated, as the seismic activity is insufficient to describe thoroughly the active crustal deformation associated with the faulting. The results suggest a major rupture zone with a length of more than 50 km. The east-west-striking Kochani-Kroupnik-Bansko ‘rupture zone’ was potentially associated with the large 1904 Kroupnik earthquakes, and has been found to transect the region joining the Kochani, Kroupnik and Bansko faults. In addition, a long-term slip rate ranging from 0.14 to 0.7 mm a–1 has been estimated for some large faults in the region using morphotectonic features. The most active faults are normal ones striking WNW-ESE to ENE-WSW, whereas the NNW-SSE- to NW-SE-striking faults tended to act as barriers to the growth of the former faults, as they do not exhibit much indication of recent reactivation. The stress regime determined is extensional with the least principal stress axis ({sigma}3) subhorizontal and oriented north-south. The fact that the active faults show geometric and kinematic characteristics, as well as estimated long-term slip rates, similar to those of the active faults of central and eastern Macedonia and Thrace (Northern Greece) suggests that both of these regions share a single contemporary stress field.





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M.D. Tranos, V.N. Kachev, and D.M. Mountrakis
Transtensional origin of the NE-SW Simitli basin along the Strouma (Strymon) Lineament, SW Bulgaria
Journal of the Geological Society, 2008; 165: 499 - 510.
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