Abstract
Abstract. We study oscillations recorded at Stromboli and Campi Flegrei by different sensors: seismometers, strainmeters and tiltmeters. We examine both the high-frequency (>0.5 Hz) portion of the spectrum and very long period signals up to tidal scales. In this context, seismicity and deformation are investigated on different time scales (from minutes to days/years) in order to identify the basic elements of their interaction, whose understanding should provide new insights on the predictive models. In this work, the strict relation of tides and volcanic processes is shown. At Stromboli, indeed the transition from the stationary phase to the non-stationary phase seems to have a tidal precursor that is related to the duration of the crisis. The subsequent volcanic activity is interpreted as the response of the volcano to restore the equilibrium condition. The moveout from equilibrium produces, first, variations in the standard statistics of explosions, then leads to effusive stage and to a pressure drop in the shallow feeding system. That process induces the nucleation of a gas bubble and the excitation of low frequencies. Campi Flegrei seismicity shows a correlation between the diurnal solar solid tide and the energy released by the long period signals, indicating that the whole mechanism is modulated on a tidal scale. In other words, in the case of Stromboli, a departure from the equilibrium state is marked by solid tide variations in a certain frequency band. On the other hand, at Campi Flegrei diurnal to annual solid tides modulate an increase of volcanic activity.
Highlights
A fundamental task in the active volcanic areas is to asses, record, and model the deformations, which the area makes experiences with the ultimate goal to forecast any external or internal source-induced non stationary phenomena
Standard and innovative techniques have been applied in frequency and time domain spanning from FFT until methods by using a fourth-order statistic (i.e., Independent Component Analysis-ICA) to a large network of seismic, tiltmeter and dilatometer data acquired by stations deployed both borehole and on surface
Previous analyses evidence the relevance to study tidal oscillations that act in modulating the ground deformation at Campi Flegrei and as a precursor of non-stationary phase at Stromboli
Summary
A fundamental task in the active volcanic areas is to asses, record, and model the deformations, which the area makes experiences with the ultimate goal to forecast any external or internal source-induced non stationary phenomena. This passes through the analysis of different geophysical parameters which describe a variety of spatial and temporal scales involved. Considerable attention is placed on specific volcanic areas such as Stromboli volcano and Campi Flegrei Caldera. Campi Flegrei (CF) volcanic complex is a nested caldera located in a densely populated area, Southern Italy (Orsi et al, 1996). We use data from a strainmeter located close to the local Civil Defense Centre (SVO), spanning the period 20 January–30 June 2007
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