Floods, Faults, and Fire: Geological Field Trips in Washington State and Southwest British Columbia
The ten geological field guides presented in this volume explore key areas of the geologist’s Paradise that is Washington State and British Columbia. These trips investigate a wide variety of geologic and geographic terrains, from the dry steppe of the channeled scablands and Columbia River basalt group to the east, across the glaciated and forested Cascade arc and Coast Mountains, to the geologically complex islands in the west. This guidebook may be unique in that four of the trips utilize boats to reach remote field areas and are therefore rarely visited by geologists. Although these trips were guided during the 2007 GSA Cordilleran Section meeting, the guides were written to ensure that people can easily guide their own trips. The result provides an excellent source of exciting, thought-provoking geologic adventures for years to come.
New developments in Late Pleistocene and Holocene glaciation and volcanism in the Fraser Lowland and North Cascades, Washington
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Published:January 01, 2007
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CiteCitation
D.J. Easterbrook, D.J. Kovanen, O. Slaymaker, 2007. "New developments in Late Pleistocene and Holocene glaciation and volcanism in the Fraser Lowland and North Cascades, Washington", Floods, Faults, and Fire: Geological Field Trips in Washington State and Southwest British Columbia, Pete Stelling, David S. Tucker
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Abstract
As the Vashon glacier retreated from its terminal position in the southern Puget-Lowland and thinned rapidly, marine waters invaded the central and northern lowland, floating the ice and depositing Everson glaciomarine drift over a wide area from southern Whidbey Island to southern British Columbia. The Everson deposits are characterized by vast areas of massive, poorly sorted stony silt and clay commonly containing marine shells. At Bellingham Bay and elsewhere in the Fraser Lowland, Deming sand is overlain by massive, poorly sorted, Bellingham glaciomarine drift to elevations of 180–210 m above present sea level and is underlain by Kulshan glaciomarine drift.
Following deposition of the Everson glaciomarine drift, ice readvanced into northern Washington and deposited Sumas Drift and meltwater channels were incised into the glaciomarine deposits. Four moraine-building phases are recognized in the Sumas, the last two in the Younger Dryas.
Rapid deglaciation between 14,500 and 12,500 14C yr B.P. resulted in lowering of the surface the Cordilleran Ice Sheet below ridge crests in the Nooksack drainage and glacial activity thereafter became topographically controlled. Local valley glaciers in the upper Nooksack Valley were fed by alpine glaciers on Mount Baker, Mount Shuksan, and the Twin Sisters Range that were no longer connected to the Cordilleran Ice Sheet. Remnants of the Cordilleran Ice Sheet persisted in the Fraser Lowland at that time but were separated from the Nooksack Valley glaciers by several ridges 1200 m higher than the surface of the ice sheet. Alpine glaciers deposited drift in the Middle and North forks of the Nooksack drainage 25–45 km down-valley from their sources.
Large mega-landslides in the Nooksack drainage are associated with an area of unusually high seismic activity, whereas nearby areas having the same geology, topography, climate, and vegetation have no such mega-landslides, suggesting that the landslides are seismically induced.
Five Holocene tephras have been recognized in the region around Mount Baker–Schreibers Meadow scoria, Mazama ash, Rocky Creek ash, Cathedral Crag ash, and the 1843 tephra.
- C-14
- carbon
- Cascade Range
- Cenozoic
- clastic sediments
- Cordilleran ice sheet
- deglaciation
- digital terrain models
- glacial sedimentation
- glaciation
- glaciomarine sedimentation
- guidebook
- Holocene
- igneous rocks
- interstadial environment
- isotopes
- landslides
- lowlands
- marine sedimentation
- mass movements
- moraines
- Mount Baker
- outwash
- Pleistocene
- pyroclastics
- Quaternary
- radioactive isotopes
- sedimentation
- sediments
- United States
- upper Pleistocene
- volcanic rocks
- volcanism
- Washington
- Whatcom County Washington
- Fraser Lowland
- Vashon Glacier