Lake Mojave

Lake Mojave
Location Mojave Desert, San Bernardino County, California
Coordinates 35°14′28″N 116°04′49″W / 35.24113°N 116.08017°W / 35.24113; -116.08017Coordinates: 35°14′28″N 116°04′49″W / 35.24113°N 116.08017°W / 35.24113; -116.08017
Lake type Glacial lake (former)
Primary inflows Mojave River
Basin countries United States
Surface elevation 288 m (945 ft)
References [1][2]

Lake Mojave is an ancient former lake fed by the Mojave River that, through the Holocene, occupied the Silver Lake and Soda Lake basins in the Mojave Desert of San Bernardino County, California. Its outlet may have ultimately emptied into the Colorado River north of Blythe.

Geography

Lake Mojave existed in San Bernardino County. The city of Las Vegas lies 140 kilometres (90 mi) northeast of Lake Mojave.[3]

On the western side, Lake Mojave was bordered by mountains that steeply rise from the basin. The eastern side is more gentle, featuring alluvial fans and pediment.[3]

The lake

At its maximum stand, Lake Mojave had a surface area of 300 square kilometres (120 sq mi) and a volume of 7 cubic kilometres (1.7 cu mi).[4] Lake Mojave had two separate lake level stands, the A stand and the B stand. The A stand lies at an altitude of 287 metres (942 ft) above sea level and the B stand at an altitude of 285.4 metres (936 ft).[5] The lake was about 10 metres (33 ft) deep.[6]

15 alluvial fans abut the shores of Lake Mojave that face the Soda Mountains.[7] A present-day 40 kilometres (25 mi) bay exists on the northwestern side of the Silver Lake basin and includes wavecut terraces and a beach ridge.[8]

Silver Lake and Soda Lake exist today where Lake Mojave formerly existed.[3] Soda Lake slopes to the north and lies at a higher altitude than Silver Lake, thus water tends to fill Silver Lake first.[9] Beach ridges and shorelines testify to the existence of a past lake in the Silver Lake basin.[10] One major beach ridge complex is named the El Capitan Beach Ridge complex and contains gravel and sand.[11]

Sediments from Lake Mojave and its two successor basins may be part of the sources of sand for the Kelso Dunes.[12] Dating of dune deposition suggests that the deposition events often correspond to times where water levels in Lake Mojave were less stable.[13]

Hydrology

Inflow

The Mojave River is the principal river reaching the Lake Mojave basin.[3]

Most water of the Mojave River ultimately comes from the San Bernardino Mountains, 201 kilometres (125 mi) southwest.[3] Precipitation increased in response to southward shifts of the polar jet stream;[14] this and floods probably contributed to the formation of Lake Mojave.[15]

The Mojave River flows into the Mojave Desert since about 2-1.5 million years ago, when its previous southward course was blocked by the uplift of the Transverse Ranges.[16] The Mojave River did not always end in Lake Mojave; at other points of its history it reached Lake Harper, Lake Manix, the Cronese Lakes and Lake Manly.[14] Lake Mojave was reached about 20,000 years before present by water overflowing from Lake Manix.[17] Compared to today, water flow would have to be at least ten times higher to allow for the formation of Lake Mojave.[18]

Outflow

A bedrocklined channel extends from a bay on the northern side of Silver Lake and forms the outlet of Lake Mojave. It is at times less than 3.0 metres (10 ft) wide. The channel terminates into Dry Lake playa, 4.8 kilometres (3 mi) away.[9] This spillway stabilized the levels of Lake Mojave during the late Pleistocene.[19]

It was once thought that overflow from Lake Mojave was nourishing a freshwater Lake Dumont, but later ostracod research indicated that that area was groundwater-supported wetland.[17] Water from Lake Mojave eventually reached the Amargosa River and Death Valley.[20]

In 1916-1917 the outlet channel was deepened in order to lower water levels. Before that, the floor of the channel had an elevation of 2,867 metres (9,407 ft).[21]

Climate

Present day climate in the area is hot and dry.[22]

On average, summer temperatures exceed 30 °C (86 °F).[22]

Average precipitation is about 78 millimetres per year (3.1 in/year). Most of it falls during winter and early spring, with about one quarter coming during summer from the Gulf of California and Gulf of Mexico. This low precipitation contrasts to a high evaporation rate of 2,000–2,500 millimetres per year (79–98 in/year).[22]

Biology

A number of shells of Anodonta californiensis have been found at Lake Mojave.[23] Phacotus freswhater algae developed in early Holocene lake stages.[24] Ostracods of Lake Mojave include Limnocythere bradburyi and Limnocythere ceriotuberosa.[25]

Lake Mojave was surrounded by a mix of pinyon-juniper and Joshua tree woodlands down to altitudes of 330 metres (1,080 ft) and desert vegetation.[11]

Present-day vegetation in the area includes creosote bush, saltbush and Opuntia. There is more vegetation in washes and on river terraces.[22]

Chronology

Lake Mojave existed between 22,000 and 9,000 years before present.[26]

Based on the Wells chronology, the lake filled before 27,000 years before present and from then on fluctuated below the A-shoreline. The lake was stable at the A-shoreline 21,900 - 19,750 and 16,850 - 13,850 years before present. The early phase is also known as Lake Mojave I, while later phases are also known as Lake Mojave II.[4] Alternative age ranges are 20,900 - 19,600 for Lake Mojave I and 16,500 - 13,400 for Lake Mojave II.[27] Water draining from Lake Manix after the formation of Afton Canyon may have aided in the development of Lake Mojave,[28] although much of the water would have continued into Death Valley due to the insufficient volume of the Lake Mojave basin.[29]

Between 13,600 and 11,500 years before present, the formation of a spillway caused Lake Mojave to abandon its A-shoreline and drop to the B-shoreline.[11] Lake Mojave stabilized at the B-shoreline until 8,700 years before present.[30] Other estimates assume a drying about 9,700 years before present.[27]

The disappearance of Lake Mojave was caused by climatic changes at the start of the Holocene.[26] Wind erosion affected the beach and delta deposits left by Lake Mojave, forming aeolian sediments.[31]

Presently, only rarely do lakes form in the basin of Lake Mojave. Individual occurrences occurred in 1916-1917, 1938-1939 and 1969;[3] this latter lake stage was photographed and it submerged the Tonopah and Tidewater railroad.[32] Other infillings occurred 3,910 ± 152 and 470 ± 160 years ago.[12] Such resurgences of the lake depend on anomalously high precipitation on the San Bernardino Mountains,[33] and are climatically linked to the Little Ice Age and other glacial expansion episodes.[34] The existence of such lakes was not only limited by climate factors but also by a generally shallow lake basin that caused a strong increase in evaporation with only slight increases in water levels.[35]

Archaeology

A steady food and freshwater supply as well as the presence of rocks that could be used to manufacture tools drew early humans towards Lake Mojave.[36] As lake levels dropped, people migrated progressively farther down to reach the lake.[37]

Some presumably archaeological sites have been found at Lake Mojave, including alignments of basalt boulders.[38] Bifaces and projectiles have been found on its shores, the latter are dated about 10,000 - 8,000 years before present,[7] these archaeological findings are known as the "Lake Mojave" complex.[15]

The so-called "Lake Mojave complex" is a cultural system that was active between 9,000 and 6,000 BC. Possibly, such cultures were derived from the Clovis culture[39] and formed when big mammals disappeared and early humans had to search for different sources of food.[40]

See also

References

  1. "Silver Lake". Geographic Names Information System. United States Geological Survey.
  2. "Soda Lake". Geographic Names Information System. United States Geological Survey.
  3. 1 2 3 4 5 6 Ore & Warren 1971, p. 2553.
  4. 1 2 Knell, Walden-Hurtgen & Kirby 2014, p. 45.
  5. McFadden et al. 1992, p. 79.
  6. Wells, McFadden & Dohrenwend 1987, p. 131.
  7. 1 2 Knell, Walden-Hurtgen & Kirby 2014, p. 46.
  8. Ore & Warren 1971, p. 2558.
  9. 1 2 Ore & Warren 1971, p. 2555.
  10. McFadden et al. 1992, p. 77.
  11. 1 2 3 McFadden et al. 1992, p. 81.
  12. 1 2 Clarke 1994, p. 534.
  13. Clarke 1994, p. 537.
  14. 1 2 Garcia et al. 2014, p. 305.
  15. 1 2 Owen et al. 2007, p. 89.
  16. Garcia et al. 2014, p. 307.
  17. 1 2 Garcia et al. 2014, p. 308.
  18. Owen et al. 2007, p. 90.
  19. Wells, McFadden & Dohrenwend 1987, p. 137.
  20. Sharp, Robert Phillip; Glazner, Allen F. (1997-01-01). Geology Underfoot in Death Valley and Owens Valley. Mountain Press Publishing. p. 16. ISBN 9780878423620.
  21. Ore & Warren 1971, p. 2556.
  22. 1 2 3 4 McFadden et al. 1992, p. 80.
  23. Ore & Warren 1971, p. 2557.
  24. Enzel et al. 1992, p. 67.
  25. Owen et al. 2007, p. 91.
  26. 1 2 McFadden et al. 1992, p. 78.
  27. 1 2 Clarke 1994, p. 533.
  28. Meek 1989, p. 9.
  29. Meek 1989, p. 10.
  30. McFadden et al. 1992, p. 82.
  31. McFadden et al. 1992, p. 87.
  32. Enzel et al. 1992, p. 65.
  33. Clarke 1994, p. 533,534.
  34. Enzel et al. 1992, p. 69.
  35. Enzel et al. 1992, p. 68.
  36. Knell, Walden-Hurtgen & Kirby 2014, p. 43.
  37. Knell, Walden-Hurtgen & Kirby 2014, p. 49.
  38. Ore & Warren 1971, p. 2559.
  39. Fitzgerald & Jones 2003, p. 397.
  40. Fitzgerald & Jones 2003, p. 398.

Sources

  • Clarke, M.L. (1994). "Infra-red stimulated luminescence ages from aeolian sand and alluvial fan deposits from the eastern Mojave Desert, California". Quaternary Science Reviews. 13 (5–7): 533–538. doi:10.1016/0277-3791(94)90073-6.
  • Enzel, Yehouda; Brown, William J.; Anderson, Roger Y.; McFadden, Leslie D.; Wells, Stephen G. (1992-07-01). "Short-Duration Holocene Lakes in the Mojave River Drainage Basin, Southern California". Quaternary Research. 38 (1): 60–73. doi:10.1016/0033-5894(92)90030-M. ISSN 0033-5894.
  • Fitzgerald, Richard T.; Jones, Terry L. (2003-01-01). "On the Weight of the Evidence from Cross Creek: A Reply to Turner". American Antiquity. 68 (2): 396–399. doi:10.2307/3557087. JSTOR 3557087.
  • Garcia, Anna L.; Knott, Jeffrey R.; Mahan, Shannon A.; Bright, Jordon (2014-03-01). "Geochronology and paleoenvironment of pluvial Harper Lake, Mojave Desert, California, USA". Quaternary Research. 81 (2): 305–317. doi:10.1016/j.yqres.2013.10.008.
  • Knell, Edward J; Walden-Hurtgen, Leah C; Kirby, Matthew E (January 2014). "Terminal Pleistocene-Early Holocene Spatio-Temporal and Settlement Patterns around Pluvial Lake Mojave, California". ResearchGate: Journal of California and Great Basin anthropology (34): 43–60. Retrieved 2017-03-18.
  • McFadden, L.D.; Wells, S.G.; Brown, W.J.; Enzel, Y. (1992). "Soil genesis on beach ridges of pluvial Lake Mojave: Implications for Holocene lacustrine and eolian events in the Mojave Desert, Southern California". CATENA. 19 (1): 77–97. doi:10.1016/0341-8162(92)90018-7.
  • Meek, Norman (1989-01-01). "Geomorphic and hydrologic implications of the rapid incision of Afton Canyon, Mojave Desert, California". Geology. 17 (1): 7–10. doi:10.1130/0091-7613(1989)017<0007:gahiot>2.3.co;2. ISSN 0091-7613.
  • Owen, Lewis A.; Bright, Jordon; Finkel, Robert C.; Jaiswal, Manoj K.; Kaufman, Darrell S.; Mahan, Shannon; Radtke, Ulrich; Schneider, Joan S.; Sharp, Warren (2007-05-01). "Numerical dating of a Late Quaternary spit-shoreline complex at the northern end of Silver Lake playa, Mojave Desert, California: A comparison of the applicability of radiocarbon, luminescence, terrestrial cosmogenic nuclide, electron spin resonance, U-series and amino acid racemization methods". Quaternary International. Dating Quaternary sediments and landforms in Drylands. 166 (1): 87–110. doi:10.1016/j.quaint.2007.01.001.
  • Ore, H. Thomas; Warren, Claude N. (1971-09-01). "Late Pleistocene-Early Holocene Geomorphic History of Lake Mojave, California". Geological Society of America Bulletin. 82 (9): 2553–2562. doi:10.1130/0016-7606(1971)82[2553:LPHGHO]2.0.CO;2. ISSN 0016-7606.
  • Wells, Stephen G.; McFadden, Leslie D.; Dohrenwend, John C. (1987-03-01). "Influence of Late Quaternary Climatic Changes on Geomorphic and Pedogenic Processes on a Desert Piedmont, Eastern Mojave Desert, California". Quaternary Research. 27 (2): 130–146. doi:10.1016/0033-5894(87)90072-X. ISSN 0033-5894.

Further reading

  • USGS (13 January 2004). "Mojave National Preserve: Soda Lake". Geology in the National Parks. U.S. Department of the Interior. Archived from the original on 2007-03-11. Retrieved 2009-09-12.
  • Philip Stoffer (14 January 2004). "Changing Climates and Ancient Lakes" (.html). Desert Landforms and Surface Processes in the Mojave National Preserve and Vicinity. Open-File Report 2004-1007. USGS, US Department of the Interior. Retrieved 2009-09-12.
  • Philip Stoffer (14 January 2004). "The Mojave River and Associated Lakes" (.html). Desert Landforms and Surface Processes in the Mojave National Preserve and Vicinity. Open-File Report 2004-1007. USGS, US Department of the Interior. Retrieved 2009-09-12.
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.