Low-frequency and broad-band source models for the 2009 L'Aquila, Italy, earthquake.

SUMMARY The 2009 L'Aquila, Italy, earthquake ( Mw 6.3) produced an unprecedented number of seismological records for a normal faulting event, and hence represents an important case study of damaging moderate magnitude earthquakes occurring in densely inhabited areas. We have investigated the source process of the 2009 L'Aquila earthquake in both the low- and broad-band frequency ranges by analysing the teleseismic and strong motion data. A low-frequency (<0.5 Hz) source model has been determined by waveform inversion of teleseismic and near-field strong motion data, yielding slip distributions with a major asperity located about 8 km southeast of the hypocentre. The broad-band (0.2-10 Hz) source characteristics were estimated using the empirical Green's function method providing the strong motion generation area of about 42 km2 located southeast of the hypocentre below the village of Onna. This coincides with the location of the asperity from the inversion analysis, indicating that the low-frequency and broad-band ground motions produced during the earthquake were generated at similar locations on the fault plane. The position of the strong motion generation area also correlates well with the distribution of observed macroseismic (MCS) intensities reported by INGV. The maximum macroseismic intensities of IX-X were reported southeast of the epicentre, with an intensity of X measured in Onna. The source properties of the 2009 L'Aquila mainshock reveal the estimated size of the strong motion generation area to be in agreement with predictions made using empirical source scaling relation for inland crustal earthquakes, implying a stress drop of approximately 10 MPa. This further indicates that the 2009 L'Aquila earthquake involved a stress drop similar to that of previously recorded earthquakes in the Central and Southern Apennines. [ABSTRACT FROM AUTHOR]