Seafloor geodetic constraints on interplate coupling of the Nankai Trough megathrust zone

TL;DR

This study uses seafloor geodetic data to map interplate coupling along the Nankai Trough, revealing new high and low slip-deficit regions crucial for understanding and mitigating future megathrust earthquakes.

Contribution

It provides the first direct seafloor geodetic evidence of interplate coupling variations in the Nankai Trough, enhancing earthquake risk assessment.

Findings

Most offshore regions have positive slip-deficit rates.

Identified high-SDR regions important for tsunami mitigation.

Low-SDR regions correlate with slow earthquakes and seamounts.

Abstract

Interplate megathrust earthquakes have inflicted catastrophic damage on human society. An extremely hazardous megathrust earthquake is predicted to occur along the Nankai Trough off southwestern Japan, an economically active and densely populated area with historical records of megathrust earthquakes. Megathrust earthquakes are the result of a plate subduction mechanism and occur at interplate slip-deficit (or coupling) regions. Many past studies have attempted to capture slip-deficit rate (SDR) distributions for assessing future earthquake disasters. However, they could not capture a total view of the megathrust earthquake source region because they had no seafloor geodetic data. The Hydrographic and Oceanographic Department of the Japan Coast Guard (JHOD) has been developing a highly precise and sustainable seafloor geodetic observation network deployed in this subduction zone to broadly obtain direct information related to offshore SDR. Here, we present seafloor geodetic observation data and an offshore interplate SDR distribution model. Our data suggests that most offshore regions in this subduction zone have positive SDRs. Specifically, our observations indicate previously unknown high-SDR regions that are important for tsunami disaster mitigation and low-SDR regions that are consistent with distributions of shallow slow earthquakes and subducting seamounts. This is the first direct evidence suggesting that coupling conditions are related to these seismological and geological phenomena. These observations provide new fundamental information for inferring megathrust earthquake scenarios and interpreting research on the Nankai Trough subduction zone.