Slow rupture in a fluid-rich fault zone initiated the 2024 M w 7.5 Noto earthquake.
Zhangfeng MaHongyu ZengHaipeng LuoZemin LiuYu JiangYosuke AokiWeitao WangYuji ItohMingzhe LyuYan CuiSang-Ho YunEmma M HillShengji WeiPublished in: Science (New York, N.Y.) (2024)
The 2024 moment magnitude ( M w ) 7.5 Noto Peninsula (Japan) earthquake caused devastation to communities and was generated by a complex rupture process. Using space geodetic and seismic observations, we show that the event deformed the peninsula with a peak uplift reaching 5 m at the west coast. Shallow slip exceeded 10 m on an offshore fault. Peak stress drop was greater than 10 MPa. This devastating event began with a slow rupture propagation lasting 15-20 s near its hypocenter, where seismic swarms had surged since 2020 due to lower-crust fluid supply. The slow start was accompanied by intense high-frequency seismic radiation. These observations suggest a distinct coseismic slip mode reflecting high heterogeneity in fault properties within a fluid-rich fault zone.