• What is a landscape region and what are landforms?
• How are regional landscapes and landforms related to the rocks beneath?
• What are the landscape regions of the Pacific Northwest?

What is a landscape region?

A landscape region is an area throughout which the landscape has a distinctive style and geologic structure different from adjacent regions. Landscape regions are intrinsically tied to their geologic history. Geological events and processes that operate throughout the landscape region give it a distinctive set of landforms. For example, the landscape region known as the Columbia Plateau is a large flat region underlain by dark layers of rock and incised by steep-walled canyons called coulees. The coulees that cut the Columbia Plateau reveal a sequence of lavas that flooded the landscape millions of years ago. The coulees themselves are a result of more recent floods of a different kind--tremendous amounts of meltwater produced by glaciers of the ice age that ended 10,000 years ago.

How is a landscape region related to the rocks beneath it?

The rocks that underlie a landscape region provide its foundation. They help determine the colors of the landscape, the shapes into which it erodes and the types of soils that form in the region. Study of the rocks also reveals a landscape region's geologic past--the materials and processes that formed it. Along with the climate of the area, the rock types of a landscape region and their susceptibility to erosion determine elevation and relief. For instance, the rocks of the Cascade Range tell a story of volcanic eruptions and intrusions of molten rock into the Earth's crust, which lifted the surface of the land and built a mountain range that was exposed to the sculpting forces of ice and water.

Each landform has its own geological story. In the study of geology, what is most important about landforms is what they reveal about geological processes. A landscape region made up of landforms such as steep ridges and deep stream valleys suggests that the region has undergone a significant amount of recent uplift. Being uplifted to a higher elevation exposes the region more to the forces of gravity and weather, which leads to rapid erosion

What are the landscape regions of the Pacific Northwest?

Basin & Range Blue-Wallowa Mountains Cascade Range Central Oregon Plateau Coast Ranges Columbia Plateau Okanogan Highlands Puget-Willamette Lowland Rocky Mountains Snake River Plain

Basin and Range

Prominent landforms: fault-block mountains; alluvial fans

The Basin and Range is a region of elongate mountain ranges separated by elongate valleys. The flanks of the ranges, which is the same thing as the margins of the basins, are underlain by normal faults. Normal faults are a type of fault that form where the Earth's crust is being stretched apart by tectonic forces.

Blue-Wallowa Mountains

Prominent landforms: fault-block mountains; cirques (Wallowa Mtns.); glacial troughs (Wallowa Mtns.); stream valleys

The Blue Mountains and Wallowa Mountains anchor a belt of mountains from central Oregon to northeastern Oregon, southeastern Washington south of Walla Walla, and west central Idaho adjacent to Hells Canyon of the Snake River. The flanks of the Blue-Wallowa Mountains are blanketed by basalt flows of the Columbia River province along with older volcanic rock layers. Layers of sedimentary rocks in the area contain important fossils of Tertiary mammals and plants. The cores of the mountains contain accreted terranes and granite intrusions.

Cascade Range

Prominent landforms: composite cones; calderas; cirques; glacial troughs; moraines; stream valleys

The Cascade Range is the volcanic arc of the Cascadia Subduction Zone. Only a few of the peaks in the Cascade Range, however, are volcanoes. The Cascade Range is a tectonic mountain range that is undergoing uplift due to creep, earthquakes, and igneous intrusion. Most of the high, jagged peaks of the Cascade Range consist of rocks other than volcanic rock, such as the intrusive igneous rocks of Mt. Stuart and the metamorphic rocks of Mt. Shuksan in Washington state.

The Cascade Range is capped by a sequence of tall, glacier-clad composite cone volcanoes, such as Mt. Rainier in Washington, Mt. Hood in Oregon, and Mt. Shasta in northern California.

Central Oregon Plateau

Prominent landforms: lava plateau; shield volcano; cinder cones; stream valleys

The Central Oregon Plateau, like the Columbia River Plateau and the Snake River Plain, is a lava plateau. However, the Central Oregon Plateau is underlain by a greater variety of volcanic layers than the Columbia River Plateau. The Central Oregon Plateau is capped by a variety of recently active volcanoes, including cinder cones and shield volcanoes. None of these types of young volcanoes appears on the Columbia Plateau. The Central Oregon Plateau is a younger volcanic region with a greater variety of volcanic rocks.

Coast Ranges

Prominent landforms: cirques (Olympic Mtns.); glacial troughs (Olympic Mtns.); stream valleys

The Coast Ranges, including the Olympic Mountains in Washington, are a region of rapid uplift of terranes that accreted in the Tertiary Period. The uplift occurs through a combination of creep, or gradual movement of the crust, and earthquakes. According to the geologic evidence, devastating subduction earthquakes occur along the coast every 200 to 500 years, the most recent great subduction earthquake happening 300 years ago.

The rapidly uplifting coast ranges capture much precipitation from the moist winds off the Pacific Ocean, leading to high levels of precipitation, rapid erosion, and steep mountains and valleys. You can sense that the landscape is young and "ragged" when you drive through the coast ranges and experience its steep, irregular hills and valleys covered by dense forests.

Unlike the Cascade Range, the Coast Ranges are non-volcanic. Most of the rocks in the Coast Ranges were oceanic crust before they became accreted to North America and uplifted into the Coast Ranges.

Columbia Plateau

Prominent landforms: lava plateaus; anticlinal ridges; coulees; stream valleys

The Columbia Plateau of eastern Washington and bordering areas of Idaho and Oregon is an elevated region that is relatively flat, even though it has some zones of ridges and hills and is cut here and there by river gorges and dry coulees. Beneath the soil, much of the Columbia Plateau consists of basalt, which is dark, solidified lava. Some parts of the Columbia Plateau, such as the Palouse, are covered by loess.

Channeled Scablands are the name for a landscape on the Columbia Plateau. This landscape is marked by zones of steep-walled dry canyons (coulees) and places where the loess that formerly covered the basalt layers appears to have been scoured away, revealing the rough basaltic rocks (scabs).

The Channeled Scablands are now known to have formed as the result of gigantic floods that occurred near the end of the last ice age (15,000-12,000 years ago). Flooding took place when a large lake that had become impounded by a dam of glacial ice in western Montana breached the dam and surged across eastern Washington. The huge volume of floodwater scoured, eroded, transported and deposited sediments, forming the Channeled Scablands. The scale of the floods (they occurred several times) can be difficult to imagine. The best views of the Channeled Scablands are from an airplane or even a satellite, where the huge scale of the floods and their effects can be more easily recognized and appreciated.

Okanogan Highlands

Prominent landforms: fault-block mountains; metamorphic core complex; moraines

The Okanogan Highlands form a transition zone from the North Cascades to the Rocky Mountains. The highlands are between the Methow Valley and the Columbia River, along the border of Canada and Washington State. The region consists of hills and moderately high mountains, cut by several low river valleys. The rocks are a mixture of gneiss, granite, volcanic rocks, sedimentary rocks, and accreted terranes.

Puget-Willamette Lowland

Prominent landforms: moraines (Puget Sound area); glacial troughs (Puget Sound area); drumlinoids (Puget Sound area); stream valleys; floodplains

The Puget-Willamette Lowland is the low area between the Cascade Range and the coast ranges. The land there has tended to become covered by sediments from rivers, and lately an arm of the ocean in the form of Puget Sound. In the Puget Sound area, the land was eroded and extensively mantled by glacial drift from continental glaciers that flowed out of the Canadian mountains during the Pleistocene.

Rocky Mountains

Prominent landforms: fault-block mountains; stream valleys

The Rocky Mountains are a broad region of uplifted fault-block mountain ranges and wide valleys that also have high elevations, even though they are lower than the surrounding mountains.

Snake River Plain

Prominent landforms: lava plateau; stream valleys; calderas

The Snake River Plain in Idaho is another relatively flat region underlain by volcanic rocks. However, the volcanic rocks beneath the Snake River Plain are not only basalt. The region also has a lot of volcanic rocks that are light- colored, including rhyolite and ash flow tuff.

Glossary terms that appear on this page: coulee; lava; glacier; fault-block mountain; alluvial fan; normal fault; tectonic; cirque; glacial trough; stream valley; basalt; sedimentary rocks; granite; composite cone; caldera; moraine; creep; intrusive; igneous rocks; metamorphic rocks; lava plateau; shield volcano; cinder cone; volcanic rocks; loess; terrane; subduction earthquake; anticlinal ridge; metamorphic core complex; gneiss; drumlinoid; floodplain; glacial drift; continental glacier; rhyolite; ash flow tuff