[SCG53-P11] Depth-dependent periodic change in the interplate locking in SW Japan inferred from spatial gradient of displacement rate field
Keywords:Interplate locking, GPS, Southwest Japan, Slow slip event
However, temporal change in the degree of interplate locking in and around the source region of Tonankai and Nankai earthquakes has not been considered in previous studies. Long-term slow slip events (SSEs) with duration of several months to several years have yet to be detected in these regions.
Uchida et al.  revealed that the degree of interplate locking between the subducting Pacific and overriding continental plates at the northeast Japan subduction zone periodically changes at recurrence intervals from 1 to 6 years based on an analysis of small repeating earthquakes and surface displacement rate fields. In addition, the results of Uchida et al.  with respect to small repeating earthquakes imply that the spatial variation of recurrence interval of SSEs on the plate interface depends on the depth, specifically, that SSEs occur at shorter recurrence intervals at the deep portion than that at the shallow portion along each profile perpendicular to the trench. While such small repeating earthquakes do not occur in the source regions of Tonankai and Nankai earthquakes, it may be possible to reveal the periodic occurrence of SSEs and the spatial variation of the recurrence interval based on the temporal change in the spatial gradient of the surface displacement rate field.
In this study, I applied the monitoring method for spatial and temporal variation of the degree of the interplate locking proposed by Iinuma  to the southwestern Japanese Islands to examine the depth dependency of the recurrence interval of the SSEs at the plate interface by comparing the predominant periods of temporal changes in the spatial gradients of horizontal and vertical surface displacement rate field. The results show that the predominant period of temporal change in the vertical velocity gradient is shorter than that in the horizontal component at most profiles. I will perform comprehensive numerical tests to examine the sensitivities of the spatial gradients of horizontal and vertical velocity fields to the interplate coupling at various depth ranges, and will report a quantitative evaluation of the depth dependency of the recurrence interval of the periodic change in the degree of interplate locking.