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Non-linear elasticity, earthquake triggering and seasonal hydrological forcing along the Irpinia fault, Southern Italy

Stefania Tarantino, Piero Poli, N. D’Agostino, Maurizio Vassallo, Gaetano Festa, Gerardo Ventafridda, Aldo Zollo

2024Nature Communications12 citationsDOIOpen Access PDF

Abstract

Pump-probe experiments investigate the strain sensitivity of crustal elastic properties, showing nonlinear variations during the strain cycle. In the laboratory, pre-seismic reductions in seismic velocity indicate that asperity contacts within the fault zone begin to fail before the macroscopic frictional sliding. The recognition of such effects in natural seismic-cycles has been challenging. Here we exploit seasonal hydrological strains, performing a natural analogue to a quasi-static laboratory pump-probe experiment to investigate the nonlinear strain sensitivity of crustal rocks and its role in seismic failure along the tectonically-active Irpinia Fault System (Southern Italy). By comparing 14-years-long series of spring discharge, strain, seismic velocity variations and earthquakes rate, we find that seismicity peaks during maximum hydrological forcing and minimum seismic velocity. Seasonal strains of ~10−6 are required for both earthquake triggering and significant nonlinearity effects arising from modulus reduction. We suggest that, for faults in a critical state, cyclical softening may lead to failure and seasonal seismicity. Through the exploitation of a seasonal hydrological deformation to probe the elastic properties of the crust, the authors here explain variations of seismic waves velocity and triggering of earthquakes in terms of nonlinear elasticity.

Topics & Concepts

Forcing (mathematics)Elasticity (physics)SeismologyGeologyEnvironmental scienceClimatologyMaterials scienceComposite materialSeismic Waves and Analysisearthquake and tectonic studiesSeismology and Earthquake Studies