We investigate source characteristics of shallow very low frequency earthquakes (VLFEs) southeast off the Kii Peninsula in the Nankai subduction zone. Shallow VLFEs are a kind of shallow slow earthquakes and are clearly observed at frequencies of 0.01-0.1 Hz. A non-linear inversion technique for moment rate function estimation (Takemura et al., 2022) and the permanent ocean-bottom seismometer network (DONET) provided us with precise locations and detailed kinematic source characteristics of shallow VLFEs. Activity change in the along-strike direction is similar to previous studies (e.g., Takemura et al., 2022; Yamamoto et al., 2022). Shallow VLFEs actively occurred around the western edge of the Paleo-Zenisu ridge, which is a subducted seamount beneath this region (e.g., Park et al., 2004).
We newly found a notable trend change in the along-dip dependency of shallow VLFE moment rates. Along the profile west side of the Paleo-Zenisu ridge (beneath KMC-KMD nodes of DONET), moment rates of shallow VLFEs increase with reaching the megathrust zone. Small-scale topographic fluctuations of the subducted oceanic plate exist along this profile, but large-scale seamount subduction has not been identified even from dense seismic surveys. Similar tendencies have been reported in deep tectonic tremors in the Nankai and Cascadia subduction zones (e.g., Yabe & Ide 2014; Wech 2020). On the other hand, the opposite trend appeared along the profile with the Paleo-Zenisu ridge (beneath KMB node of DONET). Shallow VLFEs with lower moment rates were dominant near the summit of the Paleo-Zenisu ridge. Fracture networks or stress fields due to seamount subduction (e.g., Wang & Bilek, 2014; Ruh et al., 2016) possibly impede large shallow VLFEs around the subducted seamount. The large-scale topography of the subducted oceanic plate could control source characteristics of shallow slow earthquakes.