Lake Missoula was a prehistoric proglacial lake in western Montana that existed periodically at the end of the last ice age between 15,000 and 13,000 years ago. The lake measured about 7,770 square kilometres (3,000sqmi) and contained about 2,100 cubic kilometres (500cumi) of water, half the volume of Lake Michigan.[1]
Wave-cut strandlines cut into the slope at left in photo. These cuts record former high-water lines, or shorelines. Gullies above the highway are the result of modern-day erosion. (NPS Photo)
Bjornstad, Bruce N. (c. 2006). On the trail of the Ice Age floods: a geological field guide to the mid-Columbia basin / Bruce Bjornstad. Sandpoint, Idaho: Keokee Books. p.4. ISBN978-1-879628-27-4.
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The Glacial Lake Missoula National Natural Landmark is located about 110 kilometers (68mi) northwest of Missoula, Montana, at the north end of the Camas Prairie Valley, just east of Montana Highway 382 and Macfarlane Ranch. It was designated as a National Natural Landmark in 1966 because it contains the great ripples (often measuring 25 to 50 feet (7.6 to 15.2m) high and 300 feet (91m) long) that served as a strong supporting element for J Harlen Bretz's contention that Washington State's Channeled Scablands were formed by repeated cataclysmic floods over only about 2,000 years, rather than through the millions of years of erosion that had been previously assumed.[2][3]
The lake was the result of an ice dam on the Clark Fork caused by the southern encroachment of a finger of the Cordilleran ice sheet into the Idaho Panhandle (at the present-day location of Clark Fork, Idaho, at the east end of Lake Pend Oreille). The height of the ice dam typically approached 610 metres (2,000ft), flooding the valleys of western Montana approximately 320 kilometres (200mi) eastward. It was the largest ice-dammed lake known to have occurred.[4]
The periodic rupturing of the ice dam resulted in the Missoula Floods– cataclysmic floods that swept across eastern Washington and down the Columbia River Gorge approximately 40 times during a 2,000 year period. The cumulative effect of the floods was to excavate 210 cubic kilometres (50cumi) of loess, sediment and basalt from the channeled scablands of eastern Washington and to transport it downstream.[5] These floods are noteworthy for producing canyons and other large geologic features through cataclysms rather than through more typical gradual processes.
In addition, Middle and Early Pleistocene Missoula flood deposits have been documented to comprise parts of the glaciofluvial deposits, informally known as the Hanford formation that are found in parts of the Othello Channels, Columbia River Gorge, Channeled Scabland, Quincy Basin, Pasco Basin, and the Walla Walla Valley. The age of these deposits is demonstrated by the presence of multiple interglacialcalcretes interbedded in these glaciofluvial deposits, sequences of sediments with normal and reverse magnetostratigraphy, optically stimulated luminescence dating, and unconformity truncated clastic dikes. Based upon these criteria, Quaternary geologists estimated that the oldest of the Pleistocene Missoula floods happened before 1.5 million years ago. The older Pleistocene glaciofluvial deposits within the Hanford formation are fragmentary in nature because they have been repeatedly eroded and largely removed by subsequent Missoula floods. Because of the fragmentary nature of older glaciofluvial deposits, the exact number of older Missoula floods, which are known as Ancient Cataclysmic Floods, that occurred during the Pleistocene cannot be estimated with any confidence. Although Lake Missoula likely was the source of many of the Ancient Cataclysmic Floods, the fragmentary nature of the older deposits within the Hanford formation makes precise determination of the precise origin of the floods that deposited them very difficult.[6][7]
Geology
Ice dam on the Clark Fork River
The Cordilleran ice sheet originating in British Columbia expanded out of the mountains and southward. A tongue of ice pushed down the Purcell Valley or Purcell Trench, reaching south beyond Lake Pend Oreille. This Purcell Lobe blocked the natural outlet of the Clark Fork River. Including its tributaries, Clark Fork represented western Montana's most important river system. The ice mass that effectively dammed Clark Fork was about 2,000 feet (610m) deep and extended for at least 10 miles; some say it extended as much as 30 miles.[8] The ice dam reached east up the Clark's Fork to Cabinet, Montana, and southward around the mountain to Bayview, Idaho on the south tip of Lake Pend Oreille in Farragut State Park. Here, the ice sheet stood over 2,000 feet (610m) and 25 miles (40km) south of Lake Missoula.[9]
Lake levels
The Clark Fork's drainage is a network of valleys among high mountain ranges. Lake Missoula formed through this region of western Montana. It is named for the city of Missoula in the upper reaches of the Clark Fork watershed. The mountains surrounding the city show the strandlines from the lake nearly 20,000 years ago.[8] At its largest extent, Lake Missoula's depth exceeded 2,000 feet (610m) and may have held 600cumi (2,500km3) of water, as much as Lake Erie and Lake Ontario combined. The surface area covered 3,000sqmi (7,770km2) and the shoreline attained an elevation of 4,200 feet (1,300m).
The lake spread through the Clark Fork River basin, reaching east of Missoula, 259 miles (417km) to Gold Creek; northeast up the Blackfoot River270 miles (430km) to Lake Alva; 253 miles (407km) and east of Ovando270 miles (430km). Two large lobes formed to the south and north. To the south the Bitterroot Valley filled as far as Sula, Montana, 286 miles (460km). To the north the Flathead River basin became an expansive body of water, creating an island of Red Sleep Mountain (in the CSKT Bison Range) and extending north 286 miles (460km) to Polson at the basin of the Flathead Ice Lobe and 286 miles (460km) up the Little Bitterroot River to Niarada some 132 miles (212km) above the Flathead Rivers mouth at the Clarks Fork.[8]
The water was deep (average - 800 feet (240m)): maximum - 2,100 feet (640m)), dark and murky with sediment. There is no evidence of fish. Scientists speculate that sediment known as rock flour created poor aquatic habitat. No evidence of large mammals, i.e.; mammoths, mastodons and bison may have roamed nearby, there is no evidence that these animals nor of human beings in the area.[8]
The Clark Fork River flows into Lake Pend Oreille at 2,062 feet (628m).[8]
Joins the Clark Fork River near Ninepipe National Wildlife Refuge at Sloan Bridge and crossed the divide between the Clark Fork and the Little Bitterroot Rivers at Rainbow Lake
Enters the Missoula Basin of the Clark Fork River west of Bonner
Gold Creek High Water Monument
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Clark Fork Canyon
This reach follows Montana Route 200 up the Clark Fork River canyon, 92 miles (148km) to Paradise, then follows the Clark Fork, then 49 miles (79km) through the Paradise-St. Regis Canyon along Montana Highway 135. At St. Regis, the canyon opens out and continues to the east 49 miles (79km) with the river paralleled by Interstate 90 to as far as Ninemile, where it opens out into the Missoula basin. A western branch of this basin runs up the St. Regis River another 32 miles (51km) along with Interstate 90 to near Riverbend.
Lookout Pass, 4,679 feet (1,426m) asl along Interstate 90
Thompson Falls – Located in the northern or western reach of the basin, the modern river passes through a layer of harder rock, forming a cascade.
Nine Mile Rhythmites – Located at the eastern end of the basin, near Nine Mile. A light pink sand and silt deposited on the bottom of the lake. The silt deposits exist where the basin was wide, and when the lake drained, the area was not reached by the fast current of the water moving downstream. Each lay represents a period of still water behind the ice dam. The series reflects each period of still water with the intervening draining of the lake. As with "varves", darker layers are winter deposits, comprising fine particles in quiet water, and the lighter layers are coarser particles from the more active summer currents. Here, the number of layers represent 1,000 years of sediment.[11]
Flathead Basin
The Flathead basin abutted the south face of the ice sheet. For most of this period, the glacial ice reached south to Polson, covering the entirety of Flathead Lake. The basin drains from the Polson Moraine at the south end of Flathead Lake, south to Ravalli, with a major lobe up the Little Bitterroot River and a minor basin on Camas Creek near Perma.
Little Money Creek Gulch Fill – Exit 96, north on US 93 to Ravalli. The coarse materials filled the side gulches on the narrow valley as Lake Missoula drained; eddy currents in tributary gulches deposited debris.[11]
Rainbow "Dog" Lake – Drains into the Clark Fork near Plains. During the existence of Lake Missoula, it was a drain for the Little Bitterroot basin when the lake level exceeded 3,620 feet (1,100m) asl and for the Camas Prairie basin when the lake level exceeded 3,680 feet (1,120m) asl. At the maximum depth of Lake Missoula, the valley was a 520-foot-deep (160m) waterway. Rainbow Lake is thought to be a cataract retreat lake, formed by a 100-foot (30m) waterfall. The Clark Fork River dropped 1,700 feet (520m) near Plains, creating a 60 to 70 miles per hour (97 to 113km/h) current through Boyer Creek. A weaker layer of rock beneath a more resistant layer was removed, causing the lip of the falls to retreat backward. Evidence is provided by the debris that lines the valley bottom.[11]
Camas PrairieMega ripples – Camas Prairie is a small basin on Camas Creek, north of Perma. At the maximum water levels of the Hwy 382 through the prairie to information sign at mile marker13. Multiple long ridges of sediment, 25 feet (7.6m) height and 100 feet (30m) apart. Average height between 13 and 30 feet (4.0 and 9.1m). Formed during the outflow of water during a break in the ice dam.[11] The Camas Prairie Basin filled when Lake Missoula reached 2,770 feet (840m) asl. As the water in the Lake Missoula Basin rose, this basin gained a second outlet through Rainbow Lake at 3,588 feet (1,094m) asl; Willis Gulch 3,349 feet (1,021m) asl; Markle Pass 3,352 feet (1,022m) asl; and Big Gulch 3,435 feet (1,047m) asl.
Markle Pass Kolks – Montana Highway 382 travels through Markle Pass between Camas Prairie and the Little Bitterroot Valley. The Kolks were carved out of the bedrock by strong underwater vortices created as Lake Missoula quickly drained during the great floods. When the tornado-like currents reached the bottom of the waterway, rocks were pulled out of the bottom surface. This debris can be found downstream towards Camas Prairie and Burgess Lake.[11]
Missoula Basin
The basin extends from Missoula, west to Ninemile and up the Ninemile Creek valley. This 39-mile-long (63km) valley broadens from 5 miles (8km) at Ninemile to 10 miles (16km) at Missoula. The central part of this basin around Missoula is 8 miles (13km) wide east–west and 10 miles (16km) north-south. The basin is bordered by Rattlesnake Ridge on the north and Petty Mountain on the south(west). Features: strandlines along the valleys east flank.
Strandlines can be seen on the slopes of both Mount Jumbo (4,764 feet (1,452m) asl) and Mount Sentinel (5,081 feet (1,549m) asl), east in the Missoula Valley. These lines represent lake levels as the ice dam in the Purcell Trench failed and a lower lake level formed.[11]
Nine Mile Rhythmites on the bottom of the lake are visible.
The valleys of Potomac, Greenough, and Ovando-Helmville are linked by the Blackfoot River east of Missoula. A second reach, up the Clearwater River, joins the Blackfoot River at Clearwater. This basin joins the Clark Fork at Bonner. Upper valleys of the Clearwater-Blackfoot River basins run 394 miles (634km) from Seeley Lake, eastward to Browns Lake along Montana Route 83 and Montana Route 200.
Upper Clark Fork
The Clark Fork of the Columbia River has its headwater near Butte, 130 miles (210km) east of Missoula. Lake Missoula reached up the valley, about 55 miles (89km) to the east along I-90 to just east of Gold Creek. Smaller reaches formed along the tributary valleys of Gold Creek, 13.5 miles (21.7km) up Flint Creek, forming an 8-mile-wide (13km) basin, up Lower Willow Creek, and 20 miles (32km) up Rock Creek.
Bjornstad, Bruce N. (c. 2006). On the trail of the Ice Age floods: a geological field guide to the mid-Columbia basin / Bruce Bjornstad. Sandpoint, Idaho: Keokee Books. p.4. ISBN978-1-879628-27-4.
Soennichsen, John (c. 2008). Bretz's Flood: The Remarkable Story of a Rebel Geologist and the World's Greatest Flood / John Soennichsen. Seattle, Washington: Sasquatch Books. pp.215–248. ISBN978-1-57061-631-0.
Allen, John Eliot; Burns, Marjorie; Sargent, Sam C. (c. 1986). Cataclysms on the Columbia: a layman's guide to the features produced by the catastrophic Bretz floods in the Pacific Northwest. Portland, OR: Timber Press. p.104. ISBN0-88192-067-3.
Medley, E. (2012) Ancient Cataclysmic Floods in the Pacific Northwest: Ancestors to the Missoula Floods. Unpublished Masters thesis, Portland State University, Portland, Oregon. 174 pp.
Spencer, P. K., and M. A. Jaffee (2002) Pre-Late Wisconsinan Glacial Outburst Floods in Southeastern Washington—The Indirect Record. Washington Geology. vol. 30, no. 1/2, pp. 9-16.
Glacial Lake Missoula; The glacial lake, at its maximum height and extent, may have contained 500 - 600 cubic miles of water; 9/18/2019; hugefloods.com/LakeMissoula.doc
Our Cataclysmic Floodscape, A Guide to the Incredible Ice Age Floods in Northern Idaho; Ice Age Flood Institute, Oregon-Washington-Idaho-Montana; IAFI.org
A Guide to the Incredible Ice Age Floods "Where IT Began" – Glacial Lake Missoula, Our Cataclysmic Floodscape; Ice Age Flood Institute, Oregon – Washington – Idaho – Montana; IAFI.org; 9/25/2019
This article uses material from the Wikipedia article Glacial_Lake_Missoula, and is written by contributors.
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