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Badwater Basin

Coordinates: 36°15′01″N 116°49′33″W / 36.25028°N 116.82583°W / 36.25028; -116.82583
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Badwater Basin
View of Badwater Basin from Dante's View
Badwater Basin is located in California
Badwater Basin
Badwater Basin
LocationDeath Valley
Inyo County, California
Coordinates36°15′01″N 116°49′33″W / 36.25028°N 116.82583°W / 36.25028; -116.82583
TypeEndorheic basin
Primary inflowsAmargosa River
Primary outflowsTerminal (evaporation)
Basin countriesUnited States
Max. length7.5 miles (12 km)
Max. width5.0 miles (8 km)
Surface elevation−282 ft (−86 m)[1]
SettlementsBadwater, California
ReferencesU.S. Geological Survey Geographic Names Information System: Badwater Basin

Badwater Basin is an endorheic basin in Death Valley National Park, Death Valley, Inyo County, California, noted as the lowest point in North America and the United States, with a depth of 282 ft (86 m) below sea level.[1][2] Mount Whitney, the highest point in the contiguous United States, is only 84.6 miles (136 km) to the northwest.[3]

The site itself consists of a small spring-fed pool of "bad water" next to the road in a sink; the accumulated salts of the surrounding basin make it undrinkable, thus giving it the name. The pool does have animal and plant life, including pickleweed, aquatic insects, and the Badwater snail.

Badwater Crater, the lowest place on the planet Mars, is named after the basin due to their similarities.[4][5] Adjacent to the pool, where water is not always present at the surface, repeated freeze–thaw and evaporation cycles gradually push the thin salt crust into hexagonal shapes.

The pool is not the lowest point of the basin: the lowest point (which is only slightly lower) is several miles to the west and varies in position, depending on rainfall and evaporation patterns. The salt flats are hazardous to traverse (in many cases being only a thin white crust over mud), and so the sign marking the low point is at the pool instead. The basin was considered the lowest elevation in the Western Hemisphere until the discovery of Laguna del Carbón in Argentina at −344 ft (−105 m).

Geography

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At Badwater Basin, significant rainstorms flood the valley bottom periodically, covering the salt pan with a thin sheet of standing water, forming a temporary lake known as Lake Manly. Newly formed lakes do not last long though, because the 1.9 in (48 mm) of average rainfall is overwhelmed by a 150 in (3,800 mm) annual evaporation rate and usually lakes are only a couple inches deep.[6] This is the greatest evaporation potential in the United States, meaning that a 12 ft (3.8 m) lake could dry up in a single year. When the basin is flooded, some of the salt is dissolved; it is redeposited as clean crystals when the water evaporates.[7]

A popular site for tourists is the sign marking "sea level" on the cliff above the Badwater Basin.[8][9] Similar to Owens Lake, it is characterized by a deep bed of unconsolidated valley fill from which the salt crust emerges.[10]

History

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The current best understanding of the area's geological history is that the entire region between the Colorado River in the east and Baja California in the southwest (and bordered by various uplifts and mountains around the west-northwest-northern perimeters) has seen numerous cycles since at least the start of the Pleistocene (and perhaps up to 3 Ma). In these cycles, pluvial lakes of varying size[11] have come and gone in a complex cycle, mainly tied to changing climate patterns (particularly, glaciation during the numerous recent Ice Age cycles), but also influenced by the progressive depositing of alluvial plains and deltas by the Colorado River, as can also be seen in the case of the Salton Sea.[12] These alternate with periodic water body breakthroughs and rearrangements due to erosion and the proximity of the San Andreas Fault. This process has resulted in a high number of evaporating and reforming endorheic lakes throughout the Quaternary Period in the area, with an intertwined history of various larger bodies of water subsuming smaller ones during water table maxima and the subsequent splitting and disappearance thereof during the evaporative part of the cycles.[13] Although these local cycles are now somewhat modified by human presence,[12] their legacy persists; despite appearances much to the contrary, Death Valley actually sits atop one of the largest aquifers in the world.[14][15][16]

Throughout the Quaternary's wetter spans, streams running from nearby mountains filled Death Valley, creating Lake Manly, which during its greatest extents was approximately 80 mi (130 km) long and up to 600 ft (180 m) deep.[15][17] Numerous evaporation cycles and a lack of outflow caused an increasing hypersalinity, typical for endorheic bodies of water.[18] Over time, this hypersalinization, combined with sporadic rainfall and occasional aquifer intrusion, has resulted in periods of "briny soup", or salty pools, on the lowest parts of Death Valley's floor. Salts (95% table salt – NaCl) began to crystallize, coating the surface with the thick crust, ranging from 3 to 60 in (8 to 152 cm), now observable at the basin floor.[7]

Panorama of Badwater Basin
Panoramic view of Badwater Basin

See also

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References

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Notes

  1. ^ a b "Highest and Lowest Elevations". United States Geological Survey. Retrieved April 26, 2021.
  2. ^ USGS. Badwater Quadrangle, California (Topographic map). 1:24000. 7.5 minute. Retrieved April 29, 2021.
  3. ^ "Find Distance and Azimuths Between 2 Sets of Coordinates (Badwater 36-15-01-N, 116-49-33-W and Mount Whitney 36-34-43-N, 118-17-31-W)". Federal Communications Commission. Retrieved August 13, 2010.
  4. ^ "Planetary Names". planetarynames.wr.usgs.gov. Retrieved June 16, 2023.
  5. ^ Tanaka, Kenneth L.; Coles, Kenneth S.; Christensen, Philip R., eds. (2019), "Hellas (MC-28)", The Atlas of Mars: Mapping its Geography and Geology, Cambridge: Cambridge University Press, pp. 222–227, doi:10.1017/9781139567428.033, ISBN 978-1-139-56742-8, S2CID 243430036, retrieved June 16, 2023
  6. ^ Valley, Mailing Address: P. O. Box 579 Death; Us, CA 92328 Phone: 760 786-3200 Contact. "Water levels are lower after 'Lake Manly' moved - Death Valley National Park (U.S. National Park Service)". www.nps.gov. Retrieved October 9, 2024.{{cite web}}: CS1 maint: numeric names: authors list (link)
  7. ^ a b United States Geological Survey (January 13, 2004). "Badwater". Death Valley Geology Field Trip. US Department of the Interior. Archived from the original on December 24, 2007. Retrieved September 5, 2009.
  8. ^ "Badwater, Death Valley National Park". The American Southwest. 2010. Retrieved November 15, 2010.
  9. ^ "Badwater". Tripadvisor. 2010. Retrieved November 15, 2010.
  10. ^ Lasser, Jana; Nield, Joanna M.; Goehring, Lucas (November 14, 2020). "Surface and subsurface characterisation of salt pans expressing polygonal patterns" (pdf). Earth System Science Data. 12 (4): 2881–2898. Bibcode:2020ESSD...12.2881L. doi:10.5194/essd-12-2881-2020. OCLC 8864981074. S2CID 234738235. Archived (PDF) from the original on November 5, 2020.
  11. ^ "Our Dynamic Desert". pubs.usgs.gov. Retrieved June 20, 2015.
  12. ^ a b "The Salton Sea: California's Overlooked Treasure - Chapter 1". www.sci.sdsu.edu. Retrieved June 20, 2015.
  13. ^ "Death Valley Groundwater Basin" (PDF). www.water.ca.gov. Retrieved June 20, 2015.
  14. ^ "Life in Death Valley ~ Little Fish, Big Splash". Nature. PBS. August 4, 2011. Retrieved June 20, 2015.
  15. ^ a b "Death Valley Geology Field Trip: Shoreline Butte". www.nature.nps.gov. Archived from the original on April 30, 2015. Retrieved June 20, 2015.
  16. ^ "Oasis near Death Valley fed by ancient aquifer under Nevada Test Site, study shows". news.byu.edu. Archived from the original on June 20, 2015. Retrieved June 20, 2015.
  17. ^ Philip Stoffer (January 14, 2004). "Changing Climates and Ancient Lakes". Desert Landforms and Surface Processes in the Mojave National Preserve and Vicinity. Open-File Report 2004-1007. USGS, US Department of the Interior. Archived from the original on October 23, 2009. Retrieved September 12, 2009.
  18. ^ Hammer, U. T. (April 30, 1986). Saline Lake Ecosystems of the World. Springer Science & Business Media. ISBN 9789061935353.

Further reading

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