These fragments are examples of a welded tuff, which is a volcanic rock consisting mainly of welded shards of feldspar and quartz. The largest fragment measures around 13 cm x 8.5 cm x 7 cm in size, and the other fragment measures around 11 cm x 3 cm x 7 cm.
- Catalog Number:
- 401520
- Object/Specimen Description:
- Specimen Count:
- 2
- Collector:
- A. Blankenbicker
- Precise Locality:
White River Quarry
- Locality:
- US Pacific (CA, OR, WA)
- Collecting Date:
- 15 May 2014
- Collecting Locality:
- North America, United States, Washington, King County
- Cabinet:
- 25
- Drawer/Shelf:
- 01
The White River Quarry is made up of basalt lava flows that date back to 25 million years ago and is part of what is known as the Ancestral Cascades. This time pre-dates the more well-known volcanoes in the area such as Mt. St. Helens, Mt. Rainier, and Mt. Adams. Above the old basalt lava flows are layers of younger sediments, including those deposited by glaciers and rivers, more recent eruptions, and a 4,800-year-old volcanic mudflow that covers areas all the way from Mt. Rainier to Tacoma, Washington. The old volcanic rock is very hard and dense, which makes it very useful for construction projects.
During an explosive eruption, a volcano ejects very hot ash, rock, pumice, and gas. This mixture can be directed up to the sky as an eruption column, or it can fall back to earth. When it falls to the ground, or when it is directed laterally (sideways), it produces a pyroclastic density current (PDC), commonly called a pyroclastic flow. These flows can move faster than 100 km/h (60 mph). Because they are loaded with rocks and pumice they can destroy almost anything in their path including trees and buildings. These are one of the most hazardous volcanic processes and have claimed many human lives. Sometimes PDCs deposit ash, pumice, and rock that are hot enough to melt back together. If such deposits are thick enough, the pumice are squeezed flat.