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Sand Mountain Field

Volcanic field · United States · 1664m

The Sand Mountain scoria cones rise to the WNW in late Spring across the partially frozen surface of Big Lake. South (left) and North Sand Mountain cones are the largest of a group of 23 scoria cones along a N-S line immediately west of the Cascade crest, NW of Mount Washington. A series of young, sparsely vegetated lava flows reaching the McKenzie River valley originated from vents to the west side and erupted primarily during about 3,000-4,000 years ago.
The Sand Mountain scoria cones rise to the WNW in late Spring across the partially frozen surface of Big Lake. South (left) and North Sand Mountain cones are the largest of a group of 23 scoria cones along a N-S line immediately west of the Cascade crest, NW of Mount Washington. A series of young, sparsely vegetated lava flows reaching the McKenzie River valley originated from vents to the west side and erupted primarily during about 3,000-4,000 years ago. · Photo: Photo by Lee Siebert, 2000 (Smithsonian Institution). · Wikimedia Commons
Type
Volcanic field
Country
United States
Region
North America Volcanic Regions / High Cascades Volcanic Arc
Elevation
1664m
Coordinates
44.380, -121.930
Last eruption
-950
Tectonic setting
Subduction zone / Continental crust (> 25 km)
Landform
Cluster
Major rock type
Basalt / Picro-Basalt
Geological summary

The Sand Mountain volcanic field consists of 23 basaltic and basaltic andesite cinder cones along a N-S line immediately west of the Cascade crest NW of Mount Washington. Two cone alignments trending NNW and NNE intersect near the largest cinder cone, Sand Mountain. Although previous radiometric dates spanned a range of more than a thousand years, tightly constrained paleomagnetic ages imply that at least 13 eruptive units were emplaced in a relatively short period of time about 2,950 years ago lasting at most a few decades. The Jack Pine vent at the northern end of the field is compositionally distinct from the rest of the volcanic field and is considered to have been erupted about 4,000 years earlier. Lava flows traveled predominately to the west, blocking local drainages and forming several small lakes.

Eruption history

Summary (VEI over time)
Click a bar to see individual eruptions
5050 BCE~4855 BCE · 1 eruptions · max VEI 21145 BCE~950 BCE · 1 eruptions · max VEI 45050 BCE4074 BCE3098 BCE2121 BCE1145 BCE

Detailed timeline

  1. 950 BCE (±200 yrs)VEI 4Geological estimate
    BCE 950 – Ongoing
  2. 5050 BCEVEI 2Geological estimate
    BCE 5050 – Ongoing
    Jack Mountain

External links

⚠ For reference only. Not for emergency response.