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Authors: | Gentili, Stefania* Di Giovambattista, Rita* |
Title: | Forecasting strong aftershocks in earthquake clusters from northeastern Italy and western Slovenia | Journal: | Physics of the Earth and Planetary Interiors | Series/Report no.: | /303 (2020) | Publisher: | Elsevier | Issue Date: | 27-Apr-2020 | DOI: | 10.1016/j.pepi.2020.106483 | Keywords: | Physics - Geophysics; Physics - Geophysics | Abstract: | In this study, we propose an analysis of the earthquake clusters that occurred in North-Eastern Italy and western Slovenia from 1977 to today. Given a mainshock generating alarm in the population, we are interested in forecasting if a similar magnitude earthquake will follow. We classify the earthquake clusters associated with mainshocks of magnitude Mm into two classes: if the strongest aftershock has a magnitude >=Mm-1 (swarms or large aftershock seismic sequences) as type A, otherwise (smaller aftershocks seismic sequences) as type B. A large aftershock following a main shock can cause significant damages to already weakened buildings and infrastructures, so a timely advisory information to the civil protection is of great interest for effective decision-making. For the first time, we applied to a new catalogue a pattern recognition algorithm for cluster type forecasting that we developed for all Italy (Gentili and Di Giovambattista, 2017). Thanks to the lower completeness magnitude of the local OGS catalogue, compared to the national one, and to a new version of the algorithm, we were able to lower the threshold of the clusters mainshocks magnitude from 4.5 to 3.7. The method has been validated by rigorous statistical tests. We tested the algorithm on the 1976 highly destructive earthquake cluster (mainshock magnitude 6.5 - the strongest in the last 80 years in the region) and we retrospectively forecasted it as an A cluster. Successful results were obtained also on other three smaller earthquake clusters in 2019. | Description: | 42 pages |
Appears in Collections: | Article published / in press |
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