Abstract
Fluvial terraces of Shkumbin, Devoll, Osum and Vjosa rivers (southern Albania and northwestern Greece) are studied in order to quantify the vertical slip rates of the large active faults of the Dinaric-Albanic-Hellenic Alpine fold belt. The spatial and temporal variations of the incision rates along these rivers were estimated from the geomorphological mapping of the Quaternary sediments, the geometry and the dating of the terraces. Eleven terraces levels were identified in Albania from 68 geochronological ages already published or acquired for this work. The five lower terraces of the four studied rivers are well dated (10 new and 23 already published ages). These terraces are younger than 30 ka and their remnants are numerous. Their restoration allows estimating the regional trend of incision rate and the identification of local shifts. We argue that these shifts are linked to the active tectonics when they coincide with the faults already mapped by previous authors. Vertical slip rates for eight active faults in southern Albania are thus estimated for the last 19 ka and vary from ~0.1 to ~2 mm/a. The Lushnje Tepelene Thrust, that extends more than 120 kilometers, has a throw rate that varies from 0.2 to 0.8 mm/a, whereas the active faults of the extensional domain are segmented but are very active, with throw rates reaching locally 2 mm/a.
Highlights
Albania is one of the most seismically active countries in Europe with damage intensities reaching degree IX of MSK-64 scale
The results suggest that: a) the largest vertical slip rate of the active faults is associated to the extensional domain in the eastern part of southern Albania; b) the normal faulting linked to the E-W extension of the eastern Albanian graben systems seems more active than the normal faulting linked to the NWSE extension that affect the NW part of Greece; c) the Elbasan Graben Normal Fault System is very active
As there are no significant differences between geodetic strain rates and seismological derived strain rates [Jouanne et al 2012], it is suggested that no aseismic deformation occurs in Albania and active faulting is expected to be linked to a succession of earthquakes
Summary
Albania is one of the most seismically active countries in Europe with damage intensities reaching degree IX of MSK-64 scale. The strongest historical earthquakes occurred along three well-defined seismic belts [Aliaj 1988, Muço 1998, Sulstarova et al 2003, Kiratzi 2011]: a) The Ionian-Adriatic coastal earthquake belt at the western margin of the European plate, which trends NW-SE to NNW-SSE. It is the most seismically active zone in the country and it is characterized by dipslip to oblique-slip compressional thrust faults. C) The Elbasan-Dibra transverse belt, which trends NNE-SSW across the former two This belt is characterized by normal faults (Figure 1). One of the means to characterize the activity of faults is to determine their long-term slip rates by studying the offset of morphological markers like alluvial fans, moraines, fluvial and marine terraces [e.g. Carozza and Delcaillau 1999, Vassallo et al 2005, Mason et al 2006, Caputo et al 2008, Wegmann and Pazzaglia 2009, Caputo et al 2010, Wesnousky et al 2012]
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