Abstract
Temporal changes of seismic properties, such as velocity, attenuation, anisotropy, and scattering properties, have been inferred by active methods for decades and more recently by passive methods. In particular, passive methods are capable of monitoring seismic properties because they do not require earthquakes but rely on continuously excited signals in the ocean, for example. A collection of continuous monitoring of seismic velocities has revealed that the susceptibility of velocity changes to stress perturbations are highly variable. These variations can be translated to variability of third-order elastic moduli, elastic moduli arising by considering finite deformation. The third-order elastic moduli are shown by theoretical studies to be a good indicator of granular properties of rocks and, in general, as to how fluids interact with solid rocks. Advancement of theoretical and observational studies will gain more insights into the nature of third-order elastic moduli, which will eventually become yet another parameters to characterize the properties of rocks.
Highlights
Reviewed by: Maurizio Battaglia, US Geological Survey, USA Agust Gudmundsson, Royal Holloway University of London, UK
Passive methods are capable of monitoring seismic properties because they do not require earthquakes but rely on continuously excited signals in the ocean, for example, a collection of continuous monitoring of seismic velocities has revealed that the susceptibility of velocity changes to stress perturbations are highly variable
Campaigns with artificial seismic sources are usually discrete in time so that high temporal resolution cannot be gained
Summary
Reviewed by: Maurizio Battaglia, US Geological Survey, USA Agust Gudmundsson, Royal Holloway University of London, UK. Seismic interferometry has an advantage over conventional methods in that random signals, in particular ocean hums in frequencies lower than ∼1 Hz and anthropogenic noise in those frequencies higher than ∼1 Hz (e.g., Bonnefoy-Claudet et al, 2006), are generated continuously in time, so that it is capable of monitoring seismic structure in high temporal resolution.
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