Rocky Mountains

mountains, North America
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Also known as: The Rockies
Byname:
the Rockies
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Lake Mead Water Supply Given Hope From Rockies Snowpack Nov. 12, 2024, 10:09 AM ET (Newsweek)
Winter Slams Colorado, New Mexico, Arizona Nov. 6, 2024, 10:58 AM ET (The Weather Channel)

Rocky Mountains, mountain range forming the cordilleran backbone of the great upland system that dominates the western North American continent. Generally, the ranges included in the Rockies stretch from northern Alberta and British Columbia southward to New Mexico, a distance of some 3,000 miles (4,800 km). In places the system is 300 or more miles wide. Limits are mostly arbitrary, especially in the far northwest, where mountain systems such as the Brooks Range of Alaska are sometimes included. The Rockies are bordered on the east by the Great Plains and on the west by the Interior Plateau and Coast Mountains of Canada and the Columbia Plateau and Basin and Range Province of the United States.

The Rocky Mountains include at least 100 separate ranges, which are generally divided into four broad groupings: the Canadian Rockies and Northern Rockies of Montana and northeastern Idaho; the Middle Rockies of Wyoming, Utah, and southeastern Idaho; the Southern Rockies, mainly in Colorado and New Mexico; and the Colorado Plateau in the Four Corners region of Utah, Colorado, New Mexico, and Arizona. These four subdivisions differ from each other in terms of geology (origin, ages, and types of rocks) and physiography (landforms, drainage, and soils), yet they share the physical attributes of high elevations (many peaks exceeding 13,000 feet [4,000 metres]), great local relief (typically 5,000 to 7,000 feet in vertical difference between the base and summit of ranges), shallow soils, considerable mineral wealth, spectacular scenery from past glaciation and volcanic activity, and common trends in climate, biogeography, culture, economy, and exploration.

Physical features

Physiography

The Canadian Rockies include the Mackenzie and Selwyn mountains of the Yukon and Northwest Territories (sometimes called the Arctic Rockies) and the ranges of western Alberta and eastern British Columbia. The Northern Rockies include the Lewis and Bitterroot ranges of western Montana and northeastern Idaho. These ranges formed along the eastern edge of a region of carbonate sedimentation some 17 miles (27 km) thick, which had accumulated from the late Precambrian to early Mesozoic time (i.e., between about 1 billion and 190 million years ago). This structural depression, known as the Rocky Mountain Geosyncline, eventually extended from Alaska to the Gulf of Mexico and became a continuous seaway during the Cretaceous Period (about 145 to 66 million years ago). The ranges of the Canadian and Northern Rockies were created when thick sheets of Paleozoic limestones were thrust eastward over Mesozoic rocks during the mountain-building episode called the Laramide Orogeny (65 to 35 million years ago). Some of these thrust sheets have moved 20 to 30 miles (32 to 48 km) to their present positions. The western margin of the Canadian Rockies and Northern Rockies is marked by the Rocky Mountain Trench, a graben (downfaulted, straight, flat-bottomed valley) up to 3,000 feet (900 metres) deep and several miles wide that has been glaciated and partially filled with deposits from glacial meltwaters.

The Columbia Icefield is situated on the continental divide in the Canadian Rockies at elevations of 10,000 to 13,000 feet (3,000 to 4,000 metres) above sea level. It includes the large Athabasca Glacier, which is nearly five miles long and about a mile wide. Glaciers in this ice field, while continuing to move, are thinning and retreating. The Canadian Rockies are about equally divided between drainage to the east (Atlantic and Arctic oceans) and west (Pacific Ocean).

The Middle Rockies include the Bighorn and Wind River ranges in Wyoming, the Wasatch Range of southeastern Idaho and northern Utah, and the Uinta Mountains of northeastern Utah; the Absaroka Range, extending from northwestern Wyoming into Montana, serves as a link between the Northern and Middle Rockies. While the massive deposition of carbonates was occurring in the Canadian and Northern Rockies from the late Precambrian to the early Mesozoic, a considerably smaller quantity of clastic sediments was accumulating in the Middle Rockies. Mountain building there resulted from compressional folding and high-angle faulting, except for the low-angle thrust-faulting in southwestern Wyoming and southeastern Idaho. The granitic core of the anticlinal mountains often has been upfaulted, and many ranges are flanked by Paleozoic sedimentary rocks (e.g., shales, siltstones, and sandstones) that have been eroded into hogback ridges. This same mountain-building process is occurring today in the Andes Mountains of South America. Most mountain building in the Middle Rockies occurred during the Laramide Orogeny, but the mountains of the spectacular Teton Range attained their height less than 10 million years ago by moving more than 20,000 vertical feet relative to the floor of Jackson Hole along an east-dipping fault.

Blue Ridge Mountains. Blue Ridge Parkway. Autumn in the Appalachian Mountains in North Carolina, United States. Appalachian Highlands, Ridge and Valley, The Appalachian Mountain system
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The Bighorn, Wind River, and Uinta ranges all form sharp ridge lines that rise above surrounding basins. The Wind River Range supports a large area of glaciers, including Dinwoody Glacier. These glaciers, however, are retreating fairly rapidly.

Geologic events in the Middle Rockies strongly influenced the direction of stream courses. A special feature of the past 10 million years was the creation of rivers that flowed from basin floors into canyons across adjacent mountains and onto the adjacent plains. This phenomenon resulted from superposition of the streams. The stream courses were initially established in the late Miocene Epoch (about 11.6 to 5.3 million years ago), when the basins were largely filled by deposits of Neogene and Paleogene age (i.e., about 2.6 to 66 million years old) that locally extended across lower segments of mountain axes. During the subsequent regional excavation of the basin fills—which began about five million years ago—the streams maintained their courses across the mountains and cut deep, transverse canyons.

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The Yellowstone-Absaroka region of northwestern Wyoming is a distinctive subdivision of the Middle Rockies. A large magma chamber beneath the area has filled several times and caused the surface to bulge, only to then empty in a series of volcanic eruptions of basaltic and rhyolitic lava and ash. Three such cycles have occurred in the past two million years, the most recent of which occurred about 600,000 years ago. The magma chamber is currently filling again, and the land surface in Yellowstone is rising or tilting a slight amount each year.

The Southern Rockies include the Front Range and the Wet and Sangre de Cristo mountains along the eastern slope and the Park, Gore, and Sawatch ranges and the San Juan Mountains along the western slope. The eastern and western ranges are separated by a series of high basins: from north to south they are North Park, the Arkansas River valley, and the San Luis Valley. The Southern Rockies extend northward into southern Wyoming in three prongs: the Laramie and Medicine Bow mountains and the Sierra Madre.

Only about 5,000 feet of sediment accumulated during middle Mesozoic times (about 200 to 150 million years ago) in the region now occupied by the Southern Rockies. Mountain building in these ranges resulted from compressional folding and high-angle faulting during the Laramide Orogeny, as the Mesozoic sedimentary rocks were arched upward over a massive batholith of crystalline rock. Some 10,000 vertical feet of the sedimentary rocks were then eroded; otherwise the Front Range would be approximately twice its present height. The Southern Rockies experienced less of the low-angle thrust-faulting that characterizes the Canadian and Northern Rockies and the western portions of the Middle Rockies.

The ranges of the Southern Rockies are higher than those of the Middle or Northern Rockies, with many peaks exceeding elevations of 14,000 feet. Colorado has 53 peaks over this elevation, the highest being Mount Elbert in the Sawatch Range, which at 14,433 feet (4,399 metres) is the highest point in the Rockies. These ranges were heavily eroded by several episodes of glaciation—the most recent ended about 7,500 years ago, and no active glaciers remain—resulting in spectacular alpine scenery. River valleys have been deepened in the past two million years, first from the direct action of glacier ice and subsequently by glacial meltwaters. Looping, knife-edged moraines occur in most valleys, marking the downslope extent of past glaciations.

The physiographic province called the Colorado Plateau in southeastern Utah, southwestern Colorado, northern Arizona, and northwestern New Mexico is another high-elevation region of the western United States, although it lacks the history of folding, faulting, and volcanic activity of adjacent regions. The uplifts in the Colorado Plateau are not as great as those elsewhere in the Rockies, and therefore less erosion has occurred; Precambrian rocks have been exposed only in the deepest canyons, such as the Grand Canyon.

The plateau is actually a series of plateaus at different elevations arranged in a stairstep sequence through faulting. The horizontal sedimentary rocks have been dissected by the Green and Colorado rivers and their tributaries into a network of deep canyons. Some of these canyons are deeply entrenched meanders, such as the dramatic Goosenecks section of the San Juan River near Mexican Hat, Utah, where erosion through the canyon walls separating opposite sides of a meandering river loop has created a natural bridge.

The Grand Canyon of the Colorado River cuts across the southern end of the Kaibab Upwarp in the southern plateau region. The canyon is up to 6,600 feet (2,000 metres) deep and exposes a remarkable sequence of sedimentary rocks. Weak rock types, such as shale and softer sandstone layers, form low-sloping benches, while more resistant rock types, such as limestone and harder sandstone layers, comprise cliff-forming units. Because of the alternating sequence of weak and resistant rocks in the canyon walls, a cliff-and-bench topography has formed that is typical of much of the Colorado Plateau region. The headward erosion of streams into the plateau surface eventually isolates sections of the plateau into mesas, buttes, monuments, and spires. Bedrock that has been fractured into series of parallel joints can weather into high rock walls known as fins. Subsequent weathering leads to the creation of natural arches. The same weathering processes on cliffs can create niches, which have been exploited by cliff-dwelling Native American cultures in the past.

Four mountain groups—the La Sal, Henry, Abajo, and Carrizo—are notable. From a central pipelike intrusion reaching deep into Earth’s crust, magma has been injected between layers of sedimentary rock, causing the overlying beds to bulge up in domes about one mile across. These domes are called laccoliths, and each of these mountain massifs is made up of a group of laccoliths.