Lake Bonneville was the largest

Late Pleistocene The Late Pleistocene is an unofficial Age (geology), age in the international geologic timescale in chronostratigraphy, also known as the Upper Pleistocene from a Stratigraphy, stratigraphic perspective. It is intended to be the fourth division ...

paleolake in the

Great Basin The Great Basin () is the largest area of contiguous endorheic watersheds, those with no outlets to the ocean, in North America. It spans nearly all of Nevada, much of Utah, and portions of California, Idaho, Oregon, Wyoming, and Baja Californi ...

of western North America. It was a pluvial lake that formed in response to an increase in

precipitation In meteorology, precipitation is any product of the condensation of atmospheric water vapor that falls from clouds due to gravitational pull. The main forms of precipitation include drizzle, rain, rain and snow mixed ("sleet" in Commonwe ...

and a decrease in

evaporation Evaporation is a type of vaporization that occurs on the Interface (chemistry), surface of a liquid as it changes into the gas phase. A high concentration of the evaporating substance in the surrounding gas significantly slows down evapora ...

as a result of cooler temperatures. The lake covered much of what is now western

Utah Utah is a landlocked state in the Mountain states, Mountain West subregion of the Western United States. It is one of the Four Corners states, sharing a border with Arizona, Colorado, and New Mexico. It also borders Wyoming to the northea ...

and at its highest level extended into present-day

Idaho Idaho ( ) is a landlocked U.S. state, state in the Pacific Northwest and Mountain states, Mountain West subregions of the Western United States. It borders Montana and Wyoming to the east, Nevada and Utah to the south, and Washington (state), ...

and

Nevada Nevada ( ; ) is a landlocked state in the Western United States. It borders Oregon to the northwest, Idaho to the northeast, California to the west, Arizona to the southeast, and Utah to the east. Nevada is the seventh-most extensive, th ...

. Many other hydrographically closed basins in the Great Basin contained expanded lakes during the Late Pleistocene, including Lake Lahontan in northwestern Nevada.

Geologic description

Shorelines of Lake Bonneville are visible above

Salt Lake City Salt Lake City, often shortened to Salt Lake or SLC, is the capital and most populous city of the U.S. state of Utah. It is the county seat of Salt Lake County, the most populous county in the state. The city is the core of the Salt Lake Ci ...

along the western front of the

Wasatch Mountains The Wasatch Range ( ) or Wasatch Mountains is a mountain range in the western United States that runs about from the Utah-Idaho border south to central Utah. It is the western edge of the greater Rocky Mountains, and the eastern edge of the G ...

and on other mountains throughout the Bonneville basin.Gilbert, G.K., 1890. Lake Bonneville. U.S. Geological Survey Monograph 1. 438 pp. These shorelines appear as shelves or benches that protrude from the mountainside above the valley floor, are visible on the ground from long distances and on satellite images, and have both depositional and

erosion Erosion is the action of surface processes (such as Surface runoff, water flow or wind) that removes soil, Rock (geology), rock, or dissolved material from one location on the Earth's crust#Crust, Earth's crust and then sediment transport, tran ...

al segments along their lengths.Chen, C.Y. and Maloof, A.C., 2017. Revisiting the deformed high shoreline of Lake Bonneville. Quaternary Science Reviews 159, p. 169–189. Three shorelines of Lake Bonneville that can be traced throughout the basin have been given names: Stansbury, Bonneville, and Provo. The Stansbury and Bonneville shorelines formed during the transgressive phase of Lake Bonneville; the Provo shoreline formed during the overflowing phase.Oviatt, C.G., 2015. Chronology of Lake Bonneville, 30,000 to 10,000 yr B.P. Quaternary Science Reviews 110, 166–171. Numerous other unnamed shorelines, which cannot be mapped everywhere in the basin, some of which formed during the transgressive phase and some during the regressive phase, are also present on piedmont slopes and

alluvial fan An alluvial fan is an accumulation of sediments that fans outwards from a concentrated source of sediments, such as a narrow canyon emerging from an escarpment. They are characteristic of mountainous terrain in arid to Semi-arid climate, semiar ...

s. At its maximum, when Lake Bonneville was more than deep and almost in surface area, it covered almost as much area as modern

Lake Michigan Lake Michigan ( ) is one of the five Great Lakes of North America. It is the second-largest of the Great Lakes by volume () and depth () after Lake Superior and the third-largest by surface area (), after Lake Superior and Lake Huron. To the ...

, although its shoreline was more complex with many

island An island or isle is a piece of land, distinct from a continent, completely surrounded by water. There are continental islands, which were formed by being split from a continent by plate tectonics, and oceanic islands, which have never been ...

s and

peninsula A peninsula is a landform that extends from a mainland and is only connected to land on one side. Peninsulas exist on each continent. The largest peninsula in the world is the Arabian Peninsula. Etymology The word ''peninsula'' derives , . T ...

Great Salt Lake The Great Salt Lake is the largest saltwater lake in the Western Hemisphere and the eighth-largest terminal lake in the world. It lies in the northern part of the U.S. state of Utah and has a substantial impact upon the local climate, partic ...

Utah Lake Utah Lake is a shallow freshwater lake in the center of Utah County, Utah, United States. It lies in Utah Valley, surrounded by the Provo- Orem metropolitan area. The lake's only river outlet, the Jordan River, is a tributary of the Great Sa ...

, and Sevier Lake are the largest post-Bonneville lakes in the Bonneville basin.

Causes of lake expansion and contraction

Lake Bonneville was not a

proglacial lake In geology, a proglacial lake is a lake formed either by the damming action of a moraine during the retreat of a melting glacier, a glacial ice dam, or by meltwater trapped against an ice sheet due to isostatic depression of the crust around t ...

although it formed between about 30,000 and 13,000 years ago, when glaciers at many places on Earth were expanded relative to today during the last major glaciation.Scott, W.E., McCoy, W.D., Shroba, R.R., Rubin, M., 1983. Reinterpretation of the exposed record of the last two cycles of Lake Bonneville, western United States. Quaternary Research 20, 261–285. For most of its existence (that is, during the transgressive plus regressive phases) Lake Bonneville had no river outlet and occupied a hydrographically closed basin. Changes in lake level were the result of changes in water balance caused by

climate change Present-day climate change includes both global warming—the ongoing increase in Global surface temperature, global average temperature—and its wider effects on Earth's climate system. Climate variability and change, Climate change in ...

(a simplified version of the water-balance equation is inputs equal outputs plus-or-minus storage changes). Storage changes are equal to volume changes, and changes in volume are correlated with changes in lake level. When inputs (e.g., precipitation; runoff in rivers) were greater than outputs (e.g., evaporation from the lake surface; evapotranspiration in the basin), lake level rose, and when outputs were greater than inputs, lake level fell.Ibarra, D.E., Oster, J.L., Winnick, M.J., Caves Rugenstein, J.K., Byrne, M.P., and Chamberlain, C.P., 2019. Lake area constraints on past hydroclimate in the western United States: Application to Pleistocene Lake Bonneville. Lund, W.R., McKean, A.P., and Bowman, S.D., eds., in press, Proceedings Volume: 2018 Lake Bonneville Geologic Conference and Short Course, Utah Geological Survey; McGee, D., Moreno-Chamarro, E., Marshall, J., and Galbraith. E.D., 2018. Western U.S. lake expansions during Heinrich stadials linked to Pacific Hadley circulation. Science Advances volume 4, issue 11, 10 p.
/nowiki>; Putnam, A.E., 2015. A glacial zephyr. Nature Geoscience 8, 175–176; Putnam, A.E., 2015. A glacial zephyr. Nature Geoscience 8, 175–176. Changes in global atmospheric circulation led to changes in the water budget of Lake Bonneville and other lakes in the Great Basin of western North America. Mountain glaciers in the Bonneville

drainage basin A drainage basin is an area of land in which all flowing surface water converges to a single point, such as a river mouth, or flows into another body of water, such as a lake or ocean. A basin is separated from adjacent basins by a perimeter, ...

stored less than 5% of the water that Lake Bonneville held at its maximumLaabs, B.J.C. and J.S. Munroe, J.S., 2016. Late Pleistocene mountain glaciation in the Lake Bonneville basin. in Oviatt, C.G. and Shroder, J.F., Jr., eds., Lake Bonneville: A scientific update. Developments in Earth Surface Processes 20. Elsevier. p. 462-503. and so even if all of the mountain glaciers in the basin melted at once and the water flowed into the lake (that did not happen since it took thousands of years for the mountain glaciers to melt, and Lake Bonneville was falling by that time), it would have had little effect on lake level. Lake Bonneville had no river connection with the huge North American ice sheets. While Lake Bonneville existed the patterns of wave- and current-forming winds were not significantly affected by the Laurentide and Cordilleran ice sheets in northern North America.

The name "Bonneville" and its discovery

Lake Bonneville was named by the geologist G.K. Gilbert after Benjamin Louis Eulalie de Bonneville (1796–1878), a French-born officer in the United States Army who was also a fur trapper and explorer in the American West. Bonneville's adventures were popularized by

Washington Irving Washington Irving (April 3, 1783 – November 28, 1859) was an American short-story writer, essayist, biographer, historian, and diplomat of the early 19th century. He wrote the short stories "Rip Van Winkle" (1819) and "The Legend of Sleepy ...

in the 1800s, but Captain Bonneville probably never saw Great Salt Lake or the Great Basin. G.K. Gilbert was one of the greatest geologists of the 19th Century, and his monumental work on Lake Bonneville, published in 1890, set the stage for scientific research on the paleolake that continues today.Oviatt, C.G. and Shroder, J.F., Jr., Eds., 2016. Lake Bonneville: A scientific update. Developments in Earth Surface Processes 20. Elsevier. 659 p. Gilbert was the first person to describe the major features of Lake Bonneville, however, many other early European and American explorers in the region recognized the shorelines of the ancient lake, such as Captain

John C. Frémont Major general (United States), Major-General John Charles Frémont (January 21, 1813July 13, 1890) was a United States Army officer, explorer, and politician. He was a United States senator from California and was the first History of the Repub ...

in 1843 and even earlier by Father Silvestre Velez de Escalante in 1776. Escalante, in a journal entry after visiting what would be named

wrote, "This place, which we named Llano Salado, because we found some thin white shells there, seems to have once had a much larger lake than the present one." Although a general description and understanding of Lake Bonneville has been established by the work of many people, details of the paleolake, including its history and connections to global environmental systems, will be pursued for many years to come. 1 map of Pleistocene lakes in the Great Basin

1 map of Pleistocene lakes in the Great Basin

Geologic history

Lake Bonneville began to rise from elevations similar to those of modern Great Salt Lake about 30,000 years ago.Oviatt, C.G. and Pedone, V.A., 2024, online. Chronology of the early transgressive phase of Lake Bonneville. Quaternary Research, Published online by Cambridge University Press 04 April 2024, doi:10.1017/qua.2024.10. During its early transgressive phase the lake fluctuated within a few 10s of meters of the level of modern Great Salt Lake, but after about 24,000 years ago it began a rapid rise to higher elevations, reaching its highest elevation (the Bonneville shoreline) about 17,500 years ago. During its transgressive phase in the closed basin (an endorheic basin), lake level oscillated because of changes in climate.Nelson, D.T. and Jewell, P.W., 2015. Transgressive stratigraphic record and possible oscillations of Late Pleistocene Lake Bonneville, northern Hogup Mountains, Utah, U.S.A. Palaeogeography, Palaeoclimatology, Palaeoecology 432, 58-67. At its highest level the lake had risen to the lowest point on its basin rim and had begun to overflow into the Snake River drainage basin near Red Rock Pass in what is now southeastern Idaho.O’Connor, J., 1993. Hydrology, Hydraulics, and Geomorphology of the Bonneville Flood. Geological Society of America Special Paper 274. 83 p.; O’Connor, J., 2016. The Bonneville flood — A veritable débâcle. in Oviatt, C.G. and Shroder, J.F., Jr., eds., Lake Bonneville: A scientific update. Developments in Earth Surface Processes 20. Elsevier. p. 105-126; Malde, H.E., 1968. The catastrophic Late Pleistocene Bonneville flood in the Snake River Plain, Idaho. U.S. Geological Survey Professional Paper 596, 52 p.Shroder, J.F., Cornwell, K., Oviatt, C.G., Lowndes, T.C., 2016. Chapter 4. Landslides, Alluvial Fans, and Dam Failure at Red Rock Pass: The Outlet of Lake Bonneville. in Oviatt, C.G., Shroder, J.F., Jr., Eds., Lake Bonneville: A scientific update. Developments in Earth Surface Processes 20. Elsevier. p. 75-87. The overflow, which would have begun as a trickle across the dam formed by the Marsh Creek alluvial fan, quickly evolved into a tremendous flood, the Bonneville flood, which charged down the Marsh Creek valley to the Portneuf River, into the Snake River and then into the Columbia River and Pacific Ocean. Groundwater sapping on the north slope of the Marsh Creek alluvial fan, which began long before the lake had reached its highest level, added to the instability and ultimate collapse of the fan-dam. The Bonneville flood probably lasted less than a year, during which time almost of water flowed out of the lake basin with a maximum discharge of about . Downcutting during the flood through the Marsh Creek alluvial-fan deposits and into the underlying

Neogene The Neogene ( ,) is a geologic period and system that spans 20.45 million years from the end of the Paleogene Period million years ago ( Mya) to the beginning of the present Quaternary Period million years ago. It is the second period of th ...

sand, mud, and landslide debris, caused lake level to drop about . River flow from the lake across the Red Rock Pass threshold and out of the lake basin continued non-catastrophically for at least 1000 years after the flood ended; the Provo shoreline formed during this overflowing phase. The Provo shoreline is distinguished from other shorelines of Lake Bonneville by its topographic position, strong development, and thick accumulations of microbialite (

tufa Tufa is a variety of limestone formed when carbonate minerals precipitation (chemistry), precipitate out of water in ambient temperature, unheated rivers or lakes. hot spring, Geothermally heated hot springs sometimes produce similar (but less ...

). At the end of the overflowing phase, possibly as early as about 16,500 years ago, climate change and a shift to a negative water balance (more water evaporated from the surface of the lake than entered the lake by rivers, direct precipitation, or groundwater) caused the lake to return to its closed-basin status as it declined to lower levels during the regressive phase. By 13,000 years ago the lake had fallen to an elevation similar to the average elevation of modern Great Salt Lake. During the regressive phase lake level declined approximately 660 ft (200 m) in about 3500 years because of a change to warmer and drier climate; this was a lake-level decline of roughly 2/3 of the maximum depth of Lake Bonneville. Although Lake Bonneville and the Great Salt Lake are collectively one lake system, the name "Lake Bonneville" is applied to the lake during the period from 30,000 to 13,000 years ago, and the name "Great Salt Lake" since 13,000 years ago. Lake Bonneville was anomalous in the long-term history of the basin. As the largest of four deep lakes in the basin during the past 800,000 years, Lake Bonneville plus the other three deep Pleistocene lakes, persisted for less than 10% of the period. The conditions experienced in the basin today are typical of over 90% of the past 800,000 years: a dry desert basin with a few scattered low-elevation lakes, the largest of which (Great Salt Lake) was hypersaline. For most of the time between the end of the youngest of the deep pre-Bonneville lakes (the Little Valley lake cycle, about 150,000 years ago) and the initial rise of Lake Bonneville about 30,000 years ago, the lake would have resembled modern Great Salt Lake in surface area and depth. A short episode of slightly higher lake levels during the Cutler Dam lake cycle occurred about 60,000 years ago; at this time a moderate-sized lake rose above the level of Great Salt Lake, but not as high as Lake Bonneville. Lake Bonneville flood bed

In his monograph on Lake Bonneville, G.K. Gilbert called the offshore deposits of Lake Bonneville the "White

Marl Marl is an earthy material rich in carbonate minerals, Clay minerals, clays, and silt. When Lithification, hardened into rock, this becomes marlstone. It is formed in marine or freshwater environments, often through the activities of algae. M ...

". Although the name "White Marl" has not been used by the geologic community in a formal sense, the informal term "white marl" (or "Bonneville marl") is frequently employed.Oviatt, C.G., 2018. Geomorphic controls on sedimentation in Pleistocene Lake Bonneville, eastern Great Basin. in Starratt, S.W. and Rosen, M.R., eds., From saline to freshwater: The diversity of western lakes in space and time. Geological Society of America Special Paper 536, p. 53–66. The Bonneville marl at locations far from sources of clastic sediment (gravel, sand, and silt), such as

river delta A river delta is a landform, archetypically triangular, created by the deposition of the sediments that are carried by the waters of a river, where the river merges with a body of slow-moving water or with a body of stagnant water. The creat ...

s or active wave zones, is dominated by clay-sized particles of

calcium carbonate Calcium carbonate is a chemical compound with the chemical formula . It is a common substance found in Rock (geology), rocks as the minerals calcite and aragonite, most notably in chalk and limestone, eggshells, gastropod shells, shellfish skel ...

that precipitated chemically from the lake water. Most of this calcium carbonate is in the form of the mineral

calcite Calcite is a Carbonate minerals, carbonate mineral and the most stable Polymorphism (materials science), polymorph of calcium carbonate (CaCO3). It is a very common mineral, particularly as a component of limestone. Calcite defines hardness 3 on ...

, but

aragonite Aragonite is a carbonate mineral and one of the three most common naturally occurring crystal forms of calcium carbonate (), the others being calcite and vaterite. It is formed by biological and physical processes, including precipitation fr ...

is common in Bonneville marl in the Sevier basin and in the lower part of the Bonneville marl

stratigraphic section A stratigraphic section is a sequence of layers of rocks in the order they were deposited. It is based on the principle of original horizontality, which states that layers of sediment are originally deposited horizontally under the action of ...

in the main body.Oviatt, C.G., Habiger, G., and Hay, J., 1994. Variation in the composition of Lake Bonneville marl: A potential key to lake-level fluctuations and paleoclimate. Journal of Paleolimnology 11, 19-30. Aragonite is the dominant carbonate mineral in sediments of post-Bonneville Great Salt Lake.Thompson, R.S., Oviatt, C.G., Honke, J.S., McGeehin, J.P., 2016. Late Quaternary changes in lakes, vegetation, and climate in the Bonneville basin reconstructed from sediment cores from Great Salt Lake. in Oviatt, C.G. and Shroder, J.F., Jr., eds., Lake Bonneville: A scientific update. Developments in Earth Surface Processes 20. Elsevier. p. 221-291. Dropstones, probably mostly derived from shore ice, but possibly also from floating root balls, are common in the marl, and consist of granule- to boulder-sized clasts. The Bonneville flood had catastrophic effects along the Snake River in what is now Idaho, but the influence of the flood can also be detected within the lake basin where a distinctive layer of sediment was deposited. The Bonneville flood bed can be identified in many surface exposures below the Provo shoreline and in sediment cores. The flood bed is characterized by an abrupt contact at its base between massive marl, which was deposited in the deepest water of Lake Bonneville, and finely laminated or ripple-laminated sandy marl, which was deposited by bottom currents during the flood. In places the Bonneville flood bed is composed of reworked

ostracod Ostracods, or ostracodes, are a Class (biology), class of the crustacean, Crustacea (class Ostracoda), sometimes known as seed shrimp. Some 33,000 species (only 13,000 of which are extant taxon, extant) have been identified,Brandão, S.N.; Antoni ...

e shells. The contact at the top of the flood bed is transitional to massive marl that was deposited on the lake floor during Provo time. The flood bed is best developed and most obvious in straits between partially submerged mountain ranges or in places where bottom currents were strong as lake water flowed toward its outlet at Red Rock Pass. Because the Bonneville flood bed was deposited in less than a year, it is useful as a well-dated (~17,500 years ago) stratigraphic marker within the Bonneville deposits. In previous publicationsCurrey, D.R., 1982. Lake Bonneville: Selected features of relevance to neotectonic analysis: U.S. Geological Survey Open File Report 82-1070, 31 p; Currey, D.R., 1990. Quaternary paleolakes in the evolution of semidesert basins, with special emphasis on Lake Bonneville and the Great Basin, USA. Palaeogeography, Palaeoclimatology, Palaeoecology 76, 189-214. the "Gilbert shoreline" was regarded as one of the prominent shorelines in the Bonneville basin, but this interpretation has been revised.Oviatt, C.G., 2014. The Gilbert episode in the Great Salt Lake basin, UT. Utah Geological Survey Miscellaneous Publication 14-3, 20 p.Oviatt, C.G., Young, D.C., and Duke, D.D., 2024, online. The Currey cycle of Great Salt Lake: an early Younger Dryas lake in the Bonneville basin, Utah, USA. Journal of Quaternary Science. online: DOI: 10.1002/jqs.3644 The Gilbert episode (now referred to as the Currey cycle of Great Salt Lake) was a rise of Great Salt Lake about 50 ft (15 m) higher than modern average levels. Sediments deposited near the highest level of the Currey cycle are well dated at about 12,700 years BP. A mappable shoreline at the maximum level of the Currey cycle has not been recognized.

Isostasy

The shorelines of Lake Bonneville have been warped by isostatic processes, as was recognized by Gilbert and extensively studied since Gilbert's day. Earth's crust subsided beneath the weight of the water while the lake existed, but when the lake evaporated and the water load was considerably reduced, the crust beneath the lake basin rebounded. As a result, the elevation of the Bonneville shoreline is higher in the Lakeside Mountains, elevation , west of the Great Salt Lake near the center of the Lake Bonneville water load, than at Red Rock Pass, , where the lake was very shallow. As an example of isostatic deformation of the shorelines, the elevation of the Bonneville shoreline near Salt Lake City is , but on Antelope Island in the Great Salt Lake, the elevation of the same shoreline is .

Fossils, volcanic ashes, etc.

In addition to the abundant geological features produced by Lake Bonneville, such as shorelines and sediments, fossilized fish bones and scales reveal information about the physical and chemical characteristics of the paleolake. Pollen from plants that lived in the Bonneville basin is abundant in Bonneville marl. Invertebrate fossils in Lake Bonneville deposits include mollusks and ostracodes, and bones of extinct mammals are found in Pleistocene deposits in the Bonneville basin. Volcanic ashes in sediments of Lake Bonneville help with correlations and aid in deciphering lake history. Lake Bonneville shorelines, and those of other paleolakes on Earth, are good analogs for shorelines on other planets, such as Mars.Chan, M.A., Jewell, P.W., Parker, T.J., Ormo, J., Okubo, C.H., and Komatsu, G., 2016. Pleistocene Lake Bonneville as an analog for extraterrestrial lakes and oceans. in Oviatt, C.G. and Shroder, J.F., Jr., eds., Lake Bonneville: A scientific update. Developments in Earth Surface Processes 20. Elsevier. p. 570-597.

References

External links

Brigham Young University - Geology
- maps of Lake Bonneville

maps of Lake Bonneville, and additional information on Lake Bonneville and Great Salt Lake {{DEFAULTSORT:Bonneville, Lake Bonneville Bonneville Bonneville Bonneville Bonneville Bonneville Snake River Megafloods Natural history of Utah Natural history of Idaho Natural history of Nevada Pleistocene United States Quaternary Idaho Quaternary Nevada Quaternary Utah