Magnitude 2.0 - 34 miles NW of Cape Yakataga
March 9, 2024 11:07:59 AKST (March 9, 2024 20:07:59 UTC)
60.2663°N 143.3197°W Depth 5.5 miles (8 km)
This event has been reviewed by a seismologist
- 61 miles (98 km) W of Icy Bay
- 82 miles (132 km) S of McCarthy
- 85 miles (137 km) E of Cordova
- 94 miles (152 km) SE of Chitina
- 102 miles (165 km) SE of Thompson Pass
- 104 miles (168 km) SE of Pump Station #12
- 118 miles (191 km) NE of Middleton Island
- 118 miles (191 km) SE of Valdez
- 121 miles (196 km) E of Tatitlek
- 122 miles (197 km) S of Mt. Wrangell
- 134 miles (217 km) SE of Copper Center
- 134 miles (217 km) NW of Yakutat
- 232 miles (376 km) E of Anchorage
- 342 miles (554 km) NW of Juneau
- Magnitude type: Ml2
- Event type: earthquake
Tectonic Setting of the Yakutat Block
The Yakutat microplate is the latest addition to the assemblage of accreted terranes that make up southern Alaska. The microplate was transported northward along margin-parallel transform faults,
including the Queen Charlotte and Fairweather faults. Eventually, the microplate encountered the continental margin of southern Alaska, where the ongoing collision creates complex seismotectonic interactions resulting in a very active seismic belt. Two great earthquakes in 1899 (M8.1 and M8.2) re-arranged landforms in the Yakutat Bay area, resulting in up to 40 feet of uplift and 6 feet of land subsidence. Another notable event in this region was the 1958 M7.7 Lituya Bay Earthquake, which ruptured from the head of Yakutat Bay along the entire length of the Fairweather Fault. This earthquake caused a massive landslide that crashed into Lituya Bay, creating a tsunami wave 1,720 feet high. The most recent major earthquake in the region was the 1972 M7.4 Saint Elias Earthquake. In the offshore zone, the most notable structures are the Transition Fault that separates the Yakutat microplate from the Pacific Plate and the northern Gulf of Alaska fault zone. A sequence of strong earthquakes in the Gulf of Alaska, including a M7.7 in 1987 and a M7.8 in 1988, produced significant ground motions that were felt along the entire southeast and southern Alaska coast. The Transition Fault is not known to have produced significant earthquakes except for a 1973 M6.7 event along the southeastern end of the fault. This region has a high level of background seismicity, with hundreds of earthquakes recorded each year, the majority of which are shallow and located within the 50-mile-wide coastal zone.