%0 Journal Article
%@ 2169-9313
%A Zollo, Aldo
%A Orefice, Antonella
%A Convertito, Vincenzo
%A Dipartimento di Scienze Fisiche, Università di Napoli “Federico II”, Naples, Italy,
%A Dipartimento di Scienze Fisiche, Università di Napoli “Federico II”, Naples, Italy,
%A Istituto Nazionale di Geofisica e Vulcanologia, Osservatorio Vesuviano, Naples, Italy,
%D 2014
%F epos:1742
%I John Wiley & Sons
%J Journal of Geophysical Research: Solid Earth
%N 4
%P 3256-3275
%T Source parameter scaling and radiation efficiency of microearthquakes along the Irpinia fault zone in southern Apennines, Italy
%U https://episodesplatform.eu/eprints/1742/
%V 119
%X We analyzed the P and S wave displacement spectra of 717 microearthquakes in the moment range 4 × 109 − 2 × 1014 N m recorded at the dense networks operating in southern Apennines (Italy) and deployed along the 1980 Ms 6.9 Irpinia earthquake fault zone. Source, attenuation, and site parameters are estimated by using a parametric modeling approach, which is combined with a multistep, nonlinear inversion strategy. We found that in the analyzed frequency band, an attenuation model with constant Q has to be preferred to frequency-dependent Q models. Consistent estimates of the median P and S quality factors inline image (90; 296) and inline image (114; 417) are obtained from two different techniques and relatively high values of QS/QP (median value 1.3, (0.8; 2.1)) are found in the same depth range where high VP/VS and a peak in seismicity distribution are observed. This is the evidence for a highly fractured, partially, or completely fluid-saturated medium embedding the Irpinia fault zone, down to crustal depths of 15–20 km. A nearly constant stress drop (inline image, (0.4; 5.0)) and apparent stress (inline image, (0.03, 0.4)) scaling of P and S corner frequencies and seismic energies is observed above a seismic moment value of about 1011 N m. The measured radiation efficiency is low (inline image), e.g., the radiated energy is only a small fraction of the whole energy spent by friction and fracture development. A large positive dynamic overshoot (high dynamic shear strength) can be the dominant mechanism controlling the microearthquake fractures along the Irpinia fault zone.