Cascade Range

Cascade Range
Cascade Mountains (in Canada)
"The Cascades"

The Cascades in Washington, with Mount Rainier, the range's highest mountain, standing at 14,411 ft (4,392 m). Seen in the background (left to right) are Mount Adams, Mount Hood, and Mount St. Helens.
Highest point
Peak Mount Rainier
Elevation 14,411 ft (4,392 m)
Coordinates 46°51′1.9″N 121°45′35.6″W / 46.850528°N 121.759889°W / 46.850528; -121.759889Coordinates: 46°51′1.9″N 121°45′35.6″W / 46.850528°N 121.759889°W / 46.850528; -121.759889
Dimensions
Length 700 mi (1,100 km) north-south
Width 80 mi (130 km)
Geography
Countries United States and Canada
Provinces/States British Columbia, Washington, Oregon, and California
Geology
Age of rock Pliocene

The Cascade Range or Cascades is a major mountain range of western North America, extending from southern British Columbia through Washington and Oregon to Northern California. It includes both non-volcanic mountains, such as the North Cascades, and the notable volcanoes known as the High Cascades. The small part of the range in British Columbia is referred to as the Canadian Cascades or, locally, as the Cascade Mountains. The latter term is also sometimes used by Washington residents to refer to the Washington section of the Cascades in addition to North Cascades, the more usual U.S. term, as in North Cascades National Park. The highest peak in the range is Mount Rainier in Washington at 14,411 feet (4,392 m).

The Cascades are part of the Pacific Ocean's Ring of Fire, the ring of volcanoes and associated mountains around the Pacific Ocean. All of the eruptions in the contiguous United States over the last 200 years have been from Cascade volcanoes. The two most recent were Lassen Peak from 1914 to 1921 and a major eruption of Mount St. Helens in 1980. Minor eruptions of Mount St. Helens have also occurred since, most recently from 2004 to 2008.[1] The Cascade Range is a part of the American Cordillera, a nearly continuous chain of mountain ranges (cordillera) that form the western "backbone" of North America, Central America, and South America.

Geography

Map of the Cascade Range showing major volcanic peaks

The Cascades extend northward from Lassen Peak (also known as Mount Lassen) in northern California to the confluence of the Nicola and Thompson rivers in British Columbia. The Fraser River separates the Cascades from the Coast Mountains.[2] The highest volcanoes of the Cascades, known as the High Cascades,[3] dominate their surroundings, often standing twice the height of the nearby mountains. They often have a visual height (height above nearby crestlines) of one mile or more. The highest peaks, such as the 14,411-foot (4,392 m) Mount Rainier, dominate their surroundings for 50 to 100 miles (80 to 161 km).

The northern part of the range, north of Mount Rainier, is known as the North Cascades in the United States but is formally named the Cascade Mountains north of the Canada–United States border, reaching to the northern extremity of the Cascades at Lytton Mountain.[4] Overall, the North Cascades and Canadian Cascades are extremely rugged; even the lesser peaks are steep and glaciated, and valleys are quite low relative to peaks and ridges, so there is great local relief.[5] The southern part of the Canadian Cascades, particularly the Skagit Range, is geologically and topographically similar to the North Cascades, while the northern and northeastern parts are less glaciated and more plateau-like, resembling nearby areas of the Thompson Plateau.[2]

Because of the range's proximity to the Pacific Ocean and the region's prevailing westerly winds, precipitation is substantial, especially on the western slopes due to orographic lift, with annual snow accumulations of up to 1,000 inches (25,000 mm) in some areas. Mount Baker in Washington recorded a world-record single-season snowfall in the winter of 1998–99 with 1,140 inches (29,000 mm).[6] Prior to that year, Mount Rainier held the world record for snow accumulation at Paradise in 1978. It is not uncommon for some places in the Cascades to have over 500 inches (13,000 mm) of annual snow accumulation, such as at Lake Helen, near Lassen Peak.[7] Most of the High Cascades are therefore white with snow and ice year-round. The western slopes are densely covered with Douglas-fir (Pseudotsuga menziesii), western hemlock (Tsuga heterophylla) and red alder (Alnus rubra),[8] while the drier eastern slopes feature mostly ponderosa pine (Pinus ponderosa), with some western larch (Larix occidentalis), mountain hemlock (Tsuga mertensiana) and subalpine fir (Abies lasiocarpa) and subalpine larch (Larix lyallii) at higher elevations.[9] Annual rainfall is as low as 9 inches (230 mm) on the eastern foothills due to a rain shadow effect.[10]

The Columbia Gorge marks where the Columbia River splits the Cascade Range between the states of Washington and Oregon.

Beyond the eastern foothills is an arid plateau that was largely created 17 to 14 million years ago by the many flows of the Columbia River Basalt Group. Together, these sequences of fluid volcanic rock form the 200,000-square-mile (520,000 km2) Columbia Plateau in eastern Washington, Oregon, and parts of western Idaho.[11]

The Columbia River Gorge is the only major break of the range in the United States. When the Cascades began to rise 7 million years ago in the Pliocene, the Columbia River drained the relatively low Columbia Plateau. As the range grew, erosion from the Columbia River was able to keep pace, creating the gorge and major pass seen today. The gorge also exposes uplifted and warped layers of basalt from the plateau.[12][13]

History

Indigenous peoples have inhabited the area for thousands of years and developed their own myths and legends about the Cascades. In these legends, St. Helens with its pre-1980 graceful appearance, was regarded as a beautiful maiden for whom Hood and Adams feuded.[14] Native tribes also developed their own names for the High Cascades and many of the smaller peaks, including "Tahoma", the Lushootseed name for Mount Rainier;[15] and "Louwala-Clough", meaning "smoking mountain" for Mount St. Helens.[14]

In early 1792, British navigator George Vancouver explored Puget Sound and gave English names to the high mountains he saw. Mount Baker was named for Vancouver's third lieutenant, Joseph Baker, although the first European to see it was Manuel Quimper, who named it la gran montaña del Carmelo ("Great Mount Carmel") in 1790.[16] Mount Rainier was named after Admiral Peter Rainier. Later in 1792, Vancouver had his lieutenant William Robert Broughton explore the lower Columbia River. He named Mount Hood after Lord Samuel Hood, an admiral of the Royal Navy. Mount St. Helens was sighted by Vancouver in May 1792, from near the mouth of the Columbia River. It was named for Alleyne FitzHerbert, 1st Baron St Helens, a British diplomat.[17] Vancouver's expedition did not, however, name the mountain range which contained these peaks. He referred to it simply as the "eastern snowy range". Earlier Spanish explorers called it sierra nevadas, meaning "snowy mountains".[16]

West side view of Mount Shuksan in summer as seen from Artist Point in Washington

In 1805, the Lewis and Clark Expedition passed through the Cascades on the Columbia River, which for many years was the only practical way to pass that part of the range. They were the first non-indigenous people to see Mount Adams, but they thought it was Mount St. Helens. When they later saw Mount St. Helens they thought it was Mount Rainier.[18] On their return trip, Lewis and Clark spotted a high but distant snowy pinnacle that they named for the sponsor of the expedition, U.S. President Thomas Jefferson.[19] Lewis and Clark called the Cascade Range the "Western Mountains".[20]

The Lewis and Clark expedition, and the many settlers and traders that followed, met their last obstacle to their journey at the Cascades Rapids in the Columbia River Gorge, a feature on the river now submerged beneath the Bonneville Reservoir. Before long, the great white-capped mountains that loomed above the rapids were called the "mountains by the cascades" and later simply as the "Cascades". The earliest attested use of the name "Cascade Range" is in the writings of botanist David Douglas.[21]

Mount Hood is the tallest point in the U.S. state of Oregon.

In 1814, Alexander Ross, a fur trader with the North West Company, seeking a viable route across the mountains, explored and crossed the northern Cascades between Fort Okanogan and Puget Sound. His report of the journey is vague about the route taken. He followed the lower Methow River into the mountains. He might have used Cascade Pass to reach the Skagit River. Ross was the first European-American to explore the Methow River area and likely the first to explore the Stehekin River and Bridge Creek region. Due to the difficulty of crossing the northern Cascades and the paucity of beaver, fur-trading companies made only a few explorations into the mountains north of the Columbia River after Ross.[22]

Exploration and settlement of the Cascades region by Europeans and Americans was accelerated by the establishment of a major trading post of the Hudson's Bay Company (HBC) at Fort Vancouver near today's Portland, Oregon. From this base HBC trapping parties traveled throughout the Cascades in search of beaver and other fur-bearing animals. For example, using what became known as the Siskiyou Trail, Hudson's Bay Company trappers were the first non-natives to explore the southern Cascades in the 1820s and 1830s, establishing trails which passed near Crater Lake, Mount McLoughlin, Medicine Lake Volcano, Mount Shasta, and Lassen Peak.[23]

The Coquihalla River in the Canadian Cascades

The course of political history in the Pacific Northwest saw the spine of the Cascade Range being proposed as a boundary settlement during the Oregon Dispute of 1846. The United States rejected the proposal and insisted on the 49th parallel north, which cuts across the range just north of Mount Baker. Throughout the period of dispute and up to the creation of the Crown Colony of British Columbia in 1858, the Hudson's Bay Company's York Factory Express route, as well the route of fur brigades, followed the Okanogan River along the east edge of the Cascades and the Columbia River through the range. Passes across the range were not well known and little used. Naches Pass was used for driving cattle and horses to Fort Nisqually. Yakima Pass was also used by the Hudson's Bay Company.[24]

American settlement of the flanks of the Coast Range did not occur until the early 1840s, at first only marginally. Following the Oregon Treaty the inward flux of migration from the Oregon Trail intensified and the passes and back-valleys of what is now the state of Washington were explored and populated, and it was not long after that railways followed. Despite its being traversed by several major freeways and rail lines, and its lower flanks subjected to major logging in recent decades, large parts of the range remain intense and forbidding alpine wilderness. Much of the northern half of the Cascades, from Rainier north, have been preserved by U.S. national or British Columbia provincial parks (such as E.C. Manning Provincial Park), or other forms of protected area.[25]

Looking toward Magic Mountain from Sahale Arm north of Cascade Pass. Yawning Glacier has retreated significantly since 1980.

The Canadian side of the range has a history that includes the Fraser Canyon Gold Rush of 1858–60 and its famous Cariboo Road, as well as the older Hudson's Bay Company Brigade Trail from the Canyon to the Interior, the Dewdney Trail, and older routes which connected east to the Similkameen and Okanagan valleys.

The southern mainline of the Canadian Pacific Railway penetrated the range via the passes of the Coquihalla River, along one of the steepest and snowiest routes in the entire Pacific Cordillera. Near Hope, B.C., the railway roadbed and the Othello Tunnels, now decommissioned, are popular tourist recreation destinations for hiking and bicycling. The pass is used by the Coquihalla Highway, a government megaproject built as part of the Expo 86 spending boom of the 1980s, which is now the main route from the Coast to the British Columbia interior. Traffic formerly went via the Fraser Canyon, to the west, or via Allison Pass and Manning Park along Highway 3 to the south, near the border.

The 1980 eruption of Mount St. Helens

The Barlow Road was the first established land path for U.S. settlers through the Cascade Range in 1845, and formed the final overland link for the Oregon Trail (previously, settlers had to raft down the treacherous rapids of the Columbia River). The Road left the Columbia at what is now Hood River and passed along the south side of Mount Hood at what is now Government Camp, terminating in Oregon City. There is an interpretive site there now at "The End of The Oregon Trail." The road was constructed as a toll road — $5 per wagon — and was very successful.

In addition, the Applegate Trail was created to allow settlers to avoid rafting down the Columbia River. The Trail used the path of the California Trail to north-central Nevada. From there, the Trail headed northwest into northern California, and continued northwest towards today's Ashland, Oregon. From there, settlers would head north along the established Siskiyou Trail into the Willamette Valley.

With the exception of the 1915 eruption of remote Lassen Peak in Northern California, the range was quiet for more than a century. Then, on May 18, 1980, the dramatic eruption of little-known Mount St. Helens shattered the quiet and brought the world's attention to the range. Geologists were also concerned that the St. Helens eruption was a sign that long-dormant Cascade volcanoes might become active once more, as in the period from 1800 to 1857 when a total of eight erupted. None have erupted since St. Helens, but precautions are being taken nevertheless, such as the Mount Rainier Volcano Lahar Warning System in Pierce County, Washington.[26]

Geology

Geology of the Cascade Range-related plate tectonics.

The Cascade range is made up of a band of thousands of very small, short-lived volcanoes that have built a platform of lava and volcanic debris. Rising above this volcanic platform are a few strikingly large volcanoes, like Mount St. Helens, that dominate the landscape.[27]

The Cascade volcanoes define the Pacific Northwest section of the Ring of Fire, an array of volcanoes that rim the Pacific Ocean. The Ring of Fire is also known for its frequent earthquakes. The volcanoes and earthquakes arise from a common source: subduction, where the dense Juan de Fuca oceanic plate plunges beneath the North American Plate.[28] As the oceanic slab sinks deep into the Earth's interior beneath the continental plate, high temperatures and pressures allow water molecules locked in the minerals of solid rock to escape. The water vapor rises into the pliable mantle above the subducting plate, causing some of the mantle to melt. This newly formed magma rises toward the Earth's surface to erupt, forming a chain of volcanoes (the Cascade Volcanic Arc) above the subduction zone.[28]

Human uses

Soil conditions for farming are generally good, especially downwind of volcanoes. This is largely because volcanic rocks are often rich in potassium bearing minerals such as orthoclase and decay easily. Volcanic debris, especially lahars, also have a leveling effect and the storage of water in the form of snow and ice is also important. These snow-capped mountains such as Mt. Hood and Mt. Bachelor are used as ski resorts in the late winter. Much of that water eventually flows into reservoirs, where it is used for recreation before its potential energy is captured to generate hydroelectric power before being used to irrigate crops.

Because of the abundance of powerful streams, many of the major westward rivers off the Cascades have been dammed to provide hydroelectric power. One of these, Ross Dam on the Skagit River, created a reservoir which spans the border southeast of Hope, British Columbia, extending 2 miles (3.2 km) into Canada. At the foot of the southeast flank of Mount Baker, at Concrete, Washington, the Baker River is dammed to form Lake Shannon and Baker Lake.

In addition, there is a largely untapped amount of geothermal power that can be generated from the Cascades. The U.S. Geological Survey Geothermal Research Program has been investigating this potential. Some of this energy is already being used in places like Klamath Falls, Oregon, where volcanic steam is used to heat public buildings.[29] The highest recorded temperature found in the range is 510 °F (266 °C) at 3,075 feet (937 m) below Newberry Volcano's caldera floor.

Ecology

Mountain Goat on Wallaby Peak in the North Cascades

Forests of large, coniferous trees (Western red cedars, Douglas-firs, Western hemlocks, firs, pines, spruces, and others) dominate most of the Cascade Range. Cool, wet winters and warm, dry summers (largely a result of oceanic influence) favor evergreen species, whereas mild temperatures and rich soils promote fast and prolonged growth.[30][31]

As a traveler passes through the Cascade Range, the climate first gets colder, then warmer and drier east of the crest.[32] Most of the Cascades' lower and middle elevations are covered in coniferous forest; the higher altitudes have extensive meadows as well as alpine tundra and glaciers. The southern part of the Cascades are within the California Floristic Province, an area of high biodiversity.

Black bears, coyotes, bobcats, cougars, beavers, deer, elk, moose, mountain goats and a few wolf packs returning from Canada live in the Cascades. Fewer than 50 grizzly bears reside in the Cascades of Canada and Washington.[33]

See also

Notes

  1. "Mount St. Helens: 2004–2008 Renewed Volcanic Activity". Cascades Volcano Observatory. U.S. Geological Survey. February 7, 2013. Retrieved November 9, 2013.
  2. 1 2 Beckey 2008, pp. 191–200.
  3. Martin 2002, p. 31.
  4. Duffell & McTaggart 1951, p. 8.
  5. Beckey 2003, pp. 9–12.
  6. "National Climate Extremes". National Oceanic and Atmospheric Administration. Archived from the original on June 26, 2012.
  7. McLaughlin, Mark (October 14, 2010). "Weather Window: The snowiest spot in California is Lake Helen near Lassen Volcanic National Park". Sierra Sun. Truckee, California. Retrieved November 9, 2013.
  8. Beckey 2008, p. 16.
  9. Mueller & Mueller 2002, p. 99.
  10. Ernst 2000, p. 479.
  11. Straub, Kristen; Link, Paul. "Columbia River Basalt Province". Digital Geology of Idaho. Idaho State University. Retrieved November 3, 2013.
  12. Harrison, John (October 31, 2008). "Columbia River Gorge". Columbia River History. Northwest Power and Conservation Council. Retrieved November 9, 2013.
  13. "The Cascade Episode: Evolution of the Modern Pacific Northwest". Burke Museum of Natural History and Culture, University of Washington. Retrieved November 9, 2013.
  14. 1 2 "Northwest Legends". Mount St. Helens Volcano, Washington. U.S. Geological Survey. Archived from the original on May 10, 2012.
  15. "Mount Rainier, Washington". Naming the Cascade Range Volcanoes. U.S. Geological Survey. Retrieved April 23, 2012.
  16. 1 2 Beckey 2003, pp. 3–7.
  17. "Naming the Cascade Range Volcanoes: Mount St. Helens, Washington". U.S. Geological Survey. Retrieved June 15, 2012.
  18. Beckey 2003, pp. 38–39.
  19. "The Volcanoes of Lewis and Clark, Mount Jefferson, Oregon". U.S. Geological Survey. Retrieved June 15, 2012.
  20. Beckey 2003, p. 28.
  21. Beckey 2003, p. 48.
  22. Beckey 2003, pp. 41–45.
  23. "Museum of the Siskiyou Trail". Archived from the original on April 15, 2012.
  24. Beckey 2003, pp. 63–64, 98.
  25. "North Cascades Ecoregion". Land Scope America. Retrieved June 15, 2012.
  26. "Pilot Project – Mount Rainier Volcano Lahar Warning System". Volcano Hazards Program. U.S. Geological Survey. Archived from the original on May 11, 2008.
  27.  This article incorporates public domain material from the United States Geological Survey document: "Pacific – Cascades Volcanic Province".
  28. 1 2  This article incorporates public domain material from the United States Geological Survey document: "Pacific – Cascades Volcanic Province".
  29. "Geothermal Utility". City of Klamath Falls. Archived from the original on October 6, 2010.
  30.  This article incorporates public domain material from the United States Geological Survey document: "Pacific Northwest" (PDF). Status and Trends of the Nation's Biological Resources.
  31. Waring, RH; Franklin, JF (1979). "Evergreen coniferous forests of the Pacific Northwest". Northwest Science. 204: 1380–1386.
  32. "Ecoregions of Western Washington and Oregon" (PDF). U.S. Environmental Protection Agency. Retrieved November 4, 2013.
  33. Rice, Nathan (November 14, 2011). "The forgotten North Cascades grizzly bear". High Country News. Paonia, Colorado.

References

  • Beckey, Fred W. (2003). Range of Glaciers: the Exploration and Survey of the Northern Cascade Range. Portland, Oregon: Oregon Historical Society Press. ISBN 978-0-87595-243-7. 
  • Beckey, Fred W. (2008). Cascade Alpine Guide: Climbing and High Routes Rainy Pass to Fraser River. Seattle, Washington: The Mountaineers Books. ISBN 978-1-59485-136-0. 
  • Duffell, Stanley; McTaggart, Kenneth Cunningham (1951). Ashcroft Map-Area, British Columbia. Memoir (Geological Survey of Canada), 262. Ottawa, Ontario: Natural Resources Canada; E. Cloutier, King's Printer. OCLC 3333133. 
  • Dzurisin, Dan; Stauffer, Peter H.; Hendley, James W., II (2000) [1997]. Living With Volcanic Risk in the Cascades. U.S. Geological Survey. 
  • Ernst, Wallace Gary (2000). Earth Systems: Processes and Issues. Cambridge, United Kingdom: Cambridge University Press. ISBN 0-521-47323-3. 
  • Harris, Stephen L. (2005). Fire Mountains of the West: The Cascade and Mono Lake Volcanoes (3rd ed.). Missoula, Montana: Mountain Press Publishing Company. ISBN 0-87842-511-X. 
  • Holland, Stuart S. (1976). Landforms of British Columbia: A Physiographic Outline (Bulletin 48). British Columbia Department of Mines and Petroleum Resources. Archived from the original on May 4, 2005. 
  • Martin, James (2002). North Cascades Crest: Notes and Images from America's Alps. Seattle, Washington: Sasquatch Books. ISBN 978-1-57061-140-7. 
  • Mueller, Marge; Mueller, Ted (2002). Exploring Washington's Wild Areas (2nd ed.). Seattle, Washington: The Mountaineers Books. ISBN 0-89886-807-6. 
  • Wood, Charles A.; Kienle, Jürgen, eds. (1990). Volcanoes of North America. Cambridge, United Kingdom: Cambridge University Press. ISBN 0-521-43811-X. 
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