Skip to main content
Back to map
Compare

Axial Seamount

Fissure vent · Undersea Features · 1410m (submarine)

An eruption from the southern end of Axial caldera in 1998 produced this submarine lava flow that had undergone collapse, shown in this photo. Axial Seamount rises 700 m above the mean level of the central Juan de Fuca Ridge crest about 480 km W of Cannon Beach, Oregon, to within about 1.4 km of the ocean surface. The 3 x 8 km Axial caldera opens to the SE and is defined on three sides by caldera walls up to 150 m high. Hydrothermal vents colonized with biological communities are located near the caldera boundary or along the rift zones.
An eruption from the southern end of Axial caldera in 1998 produced this submarine lava flow that had undergone collapse, shown in this photo. Axial Seamount rises 700 m above the mean level of the central Juan de Fuca Ridge crest about 480 km W of Cannon Beach, Oregon, to within about 1.4 km of the ocean surface. The 3 x 8 km Axial caldera opens to the SE and is defined on three sides by caldera walls up to 150 m high. Hydrothermal vents colonized with biological communities are located near the caldera boundary or along the rift zones. · Photo: Photo courtesy of NOAA NeMo Observatory, 2006. · Wikimedia Commons
Type
Fissure vent
Country
Undersea Features
Region
Eastern Pacific Volcanic Regions / Northeast Pacific Rifts Volcanic Province
Elevation
1410m (submarine)
Coordinates
45.950, -130.000
Last eruption
2015
Tectonic setting
Rift zone / Oceanic crust (< 15 km)
Landform
Cluster
Major rock type
Basalt / Picro-Basalt
Geological summary

Axial Seamount rises 700 m above the mean level of the central Juan de Fuca Ridge crest about 480 km W of Cannon Beach, Oregon, to within about 1,400 m of the ocean surface. It is the most magmatically and seismically active site on the Juan de Fuca Ridge between the Blanco Fracture Zone and the Cobb offset. The summit is marked by an unusual rectangular-shaped caldera (3 x 8 km) that lies between two rift zones and is estimated to have formed about 31,000 years ago. The caldera is breached to the SE and is defined on three sides by boundary faults of up to 150 m relief. Hydrothermal vents with biological communities are located near the caldera fault and along the rift zones. Hydrothermal venting was discovered north of the caldera in 1983. Detailed mapping and sampling efforts have identified more than 50 lava flows emplaced since about 410 CE (Clague et al., 2013). Eruptions producing fissure-fed lava flows that buried previously installed seafloor instrumentation were detected seismically and geodetically in 1998 and 2011, and confirmed shortly after each eruption during submersible dives.

From Wikipedia

Axial Seamount is a seamount, submarine volcano, and underwater shield volcano in the Pacific Ocean, located on the Juan de Fuca Ridge, approximately 480 km (298 mi) west of Cannon Beach, Oregon. Standing 1,100 m (3,609 ft) high, Axial Seamount is the youngest volcano and current eruptive center of the Cobb–Eickelberg Seamount chain. Located at the center of both a geological hotspot and a mid-ocean ridge, the seamount is geologically complex, and its origins are still poorly understood. Axial Seamount is set on a long, low-lying plateau, with two large rift zones trending 50 km (31 mi) to the northeast and southwest of its center. The volcano features an unusual rectangular caldera, and its flanks are pockmarked by fissures, vents, sheet flows, and pit craters up to 100 m (328 ft) deep; its geology is further complicated by its intersection with several smaller seamounts surrounding it.

Wikipedia · CC BY-SA · Read full article

Eruption history

Summary (VEI over time)
Click a bar to see individual eruptions
410~571 · 1 eruptions · max VEI 0731~892 · 1 eruptions · max VEI 0892~1052 · 1 eruptions · max VEI ?1213~1373 · 3 eruptions · max VEI 01373~1534 · 1 eruptions · max VEI 01534~1694 · 1 eruptions · max VEI 01855~2015 · 4 eruptions · max VEI 0410731121315341855

Detailed timeline

  1. 2015VEI 0Observed
    2015-04-23 – 2015-05-24
    NE flank
  2. 2011VEI 0Observed
    2011-04-06 – 2011-04-12
    E caldera rim to 10 km S
  3. 1998VEI 0Observed
    1998-01-25 – 1998-02-05
    South end of Axial caldera
  4. 1976 (±6 yrs)VEI 0Observed
    1976-01-01 – 1982
  5. 1650 (±117 yrs)VEI 0Geological estimate
    1650 – Ongoing
    East-central caldera floor
  6. 1400 (±71 yrs)VEI 0Geological estimate
    1400 – Ongoing
    East caldera rim
  7. 1300 (±91 yrs)VEI 0Geological estimate
    1300 – Ongoing
    NW caldera floor
  8. 1260 (±72 yrs)VEI 0Geological estimate
    1260 – Ongoing
    NE caldera floor and rim
  9. 1230 (±76 yrs)VEI 0Geological estimate
    1230 – Ongoing
    South caldera floor
  10. 1000 (±98 yrs)VEI ?Geological estimate
    1000 – Ongoing
    West caldera rim
  11. 800 (±107 yrs)VEI 0Geological estimate
    800 – Ongoing
    West caldera rim
  12. 410 (±123 yrs)VEI 0Geological estimate
    410 – Ongoing
    East caldera rim

External links

⚠ For reference only. Not for emergency response.