T22C-01
Tectonic Tremor and the Collective Behavior of Low-Frequency Earthquakes

Tuesday, 15 December 2015: 10:20
302 (Moscone South)
William Frank1, Nikolai Shapiro2, Allen L Husker3, Vladimir Kostoglodov3, Michel Campillo3 and Alexander A Gusev4, (1)Institut de Physique du Globe de Paris, Paris, France, (2)Institut de Physique du Globe de Paris, Paris Sorbonne Cité, CNRS, Paris, France, (3)U.N.A.M., Mexico City, Mexico, (4)Inst Volcanology & Seismology, Petropavlovsk-Kamcha, Russia
Abstract:
Tectonic tremor, a long duration, emergent seismic signal observed along the deep roots of plate interfaces, is thought to be the superposition of repetitive shear events called low-frequency earthquakes (LFE) [e.g. Shelly et al., Nature, 2007]. We use a catalog of more than 1.8 million LFEs regrouped into more than 1000 families observed over 2 years in the Guerrero subduction zone in Mexico, considering each family as an individual repetitive source or asperity. We develop a statistical analysis to determine whether the subcatalogs corresponding to different sources represent random Poisson processes or if they exhibit scale-invariant clustering in time, which we interpret as a manifestation of collective behavior. For each individual LFE source, we compare their level of collective behavior during two time periods: during the six-month-long 2006 Mw 7.5 slow-slip event and during a calm period with no observed slow slip. We find that the collective behavior of LFEs depends on distance from the trench and increases when the subduction interface is slowly slipping. Our results suggest that the occurrence of strong episodes of tectonic tremors cannot be simply explained by increased rates of low frequency earthquakes at every individual LFE source but correspond to an enhanced collective behavior of the ensemble of LFE asperities.