Seismotectonics of the Gulf of Gökova, Southwest Anatolia, using double-difference seismic tomography, earthquake relocation, and moment tensor solutions: The 20 July 2017 Mw6.5 Bodrum-Kos earthquake

The 20 July 2017 Mw6.5 Bodrum-Kos main shock that occurred in the Gulf of Gökova is one of the largest earthquakes in the north-south extensional Aegean region. In this study, we generated the first three-dimensional local earthquake tomography model for the Gökova region using the double-difference tomography algorithm to provide a contribution to discussions on the source fault of the main shock. The 2500 earthquake records of magnitude ≥2.3 between 01 January 2017 and 31 December 2017 were chosen from the 19 strong-motion accelerometer and 11 weak-motion seismometer stations. The P- and S-wave velocity models and Vp/Vs ratio model of the study area were created, and 1488 earthquakes were relocated. With the help of seismic tomographic imaging, we concluded that the main shock occurred on the south-dipping Gökova Fault Zone, not on the north-dipping fault plane suggested in some studies. We also determined that some earthquakes that occurred in 2017 were associated with a north-dipping normal fault observed down to 10 km depth immediately north of the Gökova Fault Zone. Additionally, the Datça-Kale Main Breakaway Fault, which separates the sedimentary cover and the basement rocks, was also determined in the tomographic profiles. The kinematic analysis of moment tensor solutions of 64 earthquakes, mostly with magnitudes greater than 4, is consistent with the north-south extensional tectonic regime in the Aegean region.