Study of seismicity properties based on the interaction and evolution of active fault systems in the Aegean and its surroundings = Μελέη των ιδιοτήτων της σεισμικότητας με βάση την αλληλεπίδραση και ανάπτυξη συστημάτων σεισμογόνων ρηγμάτων στον ευρύτερο χώρο του Αιγαίου.
Περίληψη
λαμβάνονται υπόψιν οι ισχυροί σεισμοί από το 1700 μέχρι σήμερα. Προσδιορίζονται τα μοντέλα διάρρηξης και υπολογίζονται οι μεταβολες της τάσης Coulomb oι οποίες προκαλούνται κατά τη γένεση κάθε ισχυρού σεισμού. Λαμβάνοντας υπόψιν την τεκτονική φόρτιση από την διαρκή κίνηση των μικροπλακών στην περιοχή του Αιγαίου, ανακατασκευάζεται το διαδοχικό πεδίο των τάσεων πριν και μετά από κάθε σεισμό μέχρι τη σημερινή κατάσταση.Τα αποτελέσματα δείχνουν ότι ο βαθμός επικέντρωσης της παραμόρφωσης εκδηλώνεται μέσω της σεισμικής συμπεριφοράς. Η ισχυρή επικέντρωση της παραμόρφωσης στον Κορινθιακό κόλπο όπως αποδυκνύεται από ανάλογες μελέτες είναι υπεύθυνη για την ισχυρή παρουσία συσταδοποίησης και μακροπρόθεσμης μνήμης για τους ενδιαμεσους χρόνους και
αποστάσεις μεταξύ των σεισμών, οι οποίοι προκαλούνται πάνω σε κυρίαρχες τεκτονικές δομές. Αντίθετα, στην Μυγδονία συγκριτικά με τον Κορινθιακό, πραγματοποιείται μια περισσότερο κατανεμημένη παραμόρφωση στο πληθυσμό ρηγμάτων, όπου μικρά δευτερεύοντα ρήγματα συμμετέχουν ενεργά στην εξέλιξη της σεισμικότητας η οποία εκδηλώνει μια σεισμική συμπεριφορά με πιο ασθενή την διατήρηση μνήμης και την χωροχρονική συσταδοποίηση συγκριτικά με τον Κορινθιακό κόλπο.
The main purpose of this dissertation is the study and the identification of the seismotectonic and stochastic characteristics of two active fault populations located in Greece. The investigation of possible interactions between faults and earthquakes is based on the stochastic tools which unveil hidden information on seismic activity and the dependence of earthquakes on stress distribution. The two study areas, Mygdonia basin and Corinth Rift have experienced strong and frequent seismicity. The epicentral distribution of earthquakes provides information on the presence of major or subsidiary faults. One of the most important objectives is the relocation of earthquake coordinates. Pairs of P- and S- seismic wave phases are employed for the application of Wadati methodology, the
calculation of the velocity ratio and station delays. All the above data are further used as an input to the Hypoinverse and HypoDDalgorithm. The spatial and temporal investigation of earthquake distribution shows an indication of earthquake migration and clustering. Cross sections perpendicular to the dominant azimuth of the main seismogenic faults contributes to the identification of fault geometry. The second objective is the quantification of interaction between earthquakes and the ability of seismicity to maintain its characteristics in time. Stochastic methodologies are applied on seismic catalogs owing different features in all magnitude scales. The completeness magnitude is estimated and catalogs are declustered when needed. Time-series were created for the interevent time and the interevent distance between consecutive events along with successive magnitudes and were investigated for their clustering and the existence of long and short memory in all cases of strong and minor seismicity. The existence of memory content is investigated with the help of the Hurst coefficient and the autocorrelation coefficient. Long memory is proved to be one of the most important characteristics of seismicity, especially for the recent microseismicity of the Corinth Rift. The final objective is the investigation of the interactions among the major faults in each study area, based on the evolution of the stress field. For this reason, the strong earthquakes that occurred in the two study areas since 1700 are considered. Rupture models are prepared and coseismic Coulomb stress changes are computed. The incorporation of the tectonic loading measured by geodetic means is incorporated and the evolutionary stress field is reconstructed until present. Finally, a synthesis of all results is attempted in combination with the geological and seismotectonic information. Results show that the different degree of deformation localization into the two study areas is imprinted on seismicity catalogs. The stronger strain localization in the Corinth Rift is responsible for the strong indications of clustering and long memory content for interevent time and distance, meaning that seismicity mostly occurs along the main fault zones. On the other hand, a relatively more distributed deformation pattern in Mygdonia graben, compared to Corinth Rift, where subsidiary small faults are brought into failure due to the occurrence of strong earthquakes account for earthquake occurrence and exhibit a weaker degree of spatiotemporal memory and clustering.
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