Earthquake originated from convergent boundry of seismic plates at Kuril-Kamchatka Trench
Mainshock occurred as a result of shallow reverse faulting
Subduction process at the Kuril-Kamchatka Arc is responsible for some of the Earth’s most intense seismic activity
The massive magnitude earthquake struck off the eastern coast of Russia’s Kamchatka Peninsula, triggering widespread tsunami warnings across the Pacific region. The seismic event was recorded to be the strongest globally in more than a decade, and is tied with Biobío, Chile (2010) as the sixth-largest ever since modern records began.
The earthquake originated from the convergent boundary between the Pacific Plate and the Okhotsk Sea Plate (often associated with the North American Plate in this region) at the Kuril-Kamchatka Trench.
These plates are seismically active and prone to producing megathrust earthquakes and tsunamis.
The mainshock occurred as a result of shallow reverse faulting, a type of movement where one block of crust is thrust up over another along the fault interface. This movement occurred over a fault zone roughly 390 km long and 140 km wide, which is typical for megathrust events along subduction zones.
The earthquake’s epicentre was located about 136 km east-southeast of Petropavlovsk-Kamchatsky, with a focal depth reported between 19 km and 21 km beneath the ocean floor.
The earthquake was preceded by a magnitude 7.4 foreshock on July 20, which occurred just southwest of the main rupture zone. This earlier tremor underscored the region’s heightened seismic activity.
This larger event’s epicentre was just 45 km southeast of the site of the historic 1952 magnitude 9.0 Kamchatka earthquake.
After the quake, tsunami warnings were quickly issued for the coasts of Russia, Japan, Alaska, Guam, Hawaii, and other Pacific islands. Authorities in Kamchatka reported waves of 3–4 m in some areas, causing evacuations in multiple coastal settlements like Severo-Kurilsk and prompting residents to move away from shorelines immediately.
Japan’s Meteorological Agency warned of potential tsunami waves of up to 3m along its Pacific coast. Portions of the US West Coast were also put under advisory, although the threat of major inundation outside the immediate region was considered lower.
This earthquake points to the seismic risk along the Pacific Ring of Fire, a zone infamous for powerful earthquakes and devastating tsunamis.
The subduction process at the Kuril-Kamchatka Arc is responsible for some of the Earth’s most intense seismic activity, and events like this are a stark reminder of the need for robust early warning systems and disaster preparedness in tectonically volatile regions.
