- Earthquakes
- Tsunamis
- Seismic Network
- About Us
Magnitude 7.3 - 62 miles S of Amukta Pass
June 23, 2011 19:09:37 AKDT (June 24, 2011 03:09:37 UTC)
51.4941°N 171.5488°W Depth 24.3 miles (39 km)
This event has been reviewed by a seismologist
- 69 miles (111 km) SE of Seguam Island
- 70 miles (113 km) S of Amukta Pass
- 76 miles (123 km) S of Chagulak Island
- 87 miles (141 km) SW of Yunaska Island
- 106 miles (171 km) SW of Herbert Island
- 114 miles (184 km) SW of Mt. Cleveland
- 116 miles (188 km) SW of Carlisle Island
- 123 miles (199 km) E of Atka
- 129 miles (209 km) SW of Kagamil Island
- 132 miles (214 km) SW of Uliaga Island
- 151 miles (244 km) E of Mt. Sergief
- 268 miles (434 km) SW of Dutch
- Magnitude type: Mw2
- Event type: N/A
To view any current tsunami advisories for this and other events please visit www.tsunami.gov
Tectonic Setting of the Aleutian Islands
The world's largest earthquakes originate along convergent plate boundaries such as the Aleutian megathrust. Starting in 1938, a series of three great earthquakes ruptured the subduction zone along its entire length from the Alaska Peninsula to the western Aleutians with the exception of a small gap near the Shumagin Islands. The sequence began with a M8.2 earthquake southwest of Kodiak Island. A M8.6 in the Andreanof Islands followed in 1957, and the sequence concluded with the Rat Islands M8.7 in 1965. The Shumagin Gap still has not ruptured, but GPS observations suggest that little strain has built up in this region.
Another notable source of seismicity in the arc are the intermediate depth earthquakes within the subducting Pacific Plate, known as the Wadati-Benioff zone. The largest recorded earthquake of this kind was the 2014 M7.9 Little Sitkin event. Shallow earthquakes associated with volcano processes and crustal faults within the overriding North American plate occur regularly and may produce vigorous aftershock or swarm-like sequences.