The instrumental seismicity (earthquakes with 2.4 ≤ MD ≤ 5.6, collected by the Seismometric Network of the Friuli-Venezia Giulia Region) that hit the Italian-Slovenian border region in the period 1974-2000 was analysed and discussed. The study area, which is characterised by medium-high seismicity, is located in the north-eastern portion of the deformed margin of the Adria microplate. Here the SSE-verging Neogene to Quaternary thrust-belt of the Southalpine chain joins with the Paleogene SW-verging thrust-belt of the External Dinarides. In the western Slovenian region, a set of dextral NW-SE strike-slip faults, Neogene to Quaternary in age, seems to act as the easternmost tectonic release for the Southalpine chain. The focal mechanism of 48 events was constructed: their distribution confirms that two distinct seismotectonic zones coexist above the same maximum stress tensor (σ1 horizontal and about N-S striking). 1) The Gemona area, that shows fault-plane solutions typical of low-angle WNW-ESE trending reverse faults, confirming that it pertains completely to the eastem Southalpine thrust-belt which is propagating southwards deforming the Quaternary deposits of the Friuli plain. 2) The Cividale - NW Slovenia area, that shows two different sets of fault plane solutions. The first indicates NW-SE trending dextral strike-slip faults. This system is connected to the main seismicity of the Extemal Dinarides as testified by the Bovec earthquake of April 1998 (MD = 5.6) and the Sneznik -Klana events of May 1995 (ML = 4.7) and February 1992 (ML = 4.1). The second set presents normal or transtensional fault plane solutions with high angle NNW-SSE trending planes. The inversion technique of Gephart and Forsyth confirms a heterogeneous stress field for the Cividale -NW Slovenia area. The structural model proposed shows that extensional strike-slip duplexes develop together with the main strike-slip fault-system of Cividale - NW Slovenia area. Moreover, it is hypothesised the seismogenic activity of this region is linked to the reactivation of deep inner structures probably Early Neogene in time.
Normal focal mechanisms in the Julian Alps and Prealps: seismotectonic implications for the Italian-Slovenian border region
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