بحيرة مالحة

(تم التحويل من Salt lake)

A salt lake or saline lake is a landlocked body of water that has a concentration of salts (typically sodium chloride) and other dissolved minerals significantly higher than most lakes (often defined as at least three grams of salt per litre). In some cases, salt lakes have a higher concentration of salt than sea water; such lakes can also be termed hypersaline lakes, and may also be pink lakes on account of their colour. An alkalic salt lake that has a high content of carbonate is sometimes termed a soda lake.[بحاجة لمصدر]

One saline lake classification differentiates between:

  • subsaline: 0.5–3 (0.05-0.3%)
  • hyposaline: 3–20‰ (0.3-2%)
  • mesosaline: 20–50‰ (2-5%)
  • hypersaline: greater than 50‰ (5%)[1]

Large saline lakes make up 44% of the volume and 23% of the area of lakes worldwide.[2]

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الخصائص

بحيرة سلطان في إيران وتلال الملح

Salt lakes form when the water flowing into the lake, containing salt or minerals, cannot leave because the lake is endorheic (terminal). The water then evaporates, leaving behind any dissolved salts and thus increasing its salinity, making a salt lake an excellent place for salt production. High salinity can also lead to halophilic flora and fauna in and around the lake; sometimes, in fact, the result may be an absence or near absence of multicellular life in the salt lake.

If the amount of water flowing into a lake is less than the amount evaporated, the lake will eventually disappear and leave a dry lake (also called playa or salt flat).[بحاجة لمصدر]

Brine lakes consist of water that has reached salt saturation or near saturation (brine), and may also be heavily saturated with other materials.[بحاجة لمصدر]

Most brine lakes develop as a result of high evaporation rates in an arid climate with a lack of an outlet to the ocean. The high salt content in these bodies of water may come from minerals deposited from the surrounding land. Another source for the salt may be that the body of water was formerly connected to the ocean. While the water evaporates from the lake, the salt remains. Eventually, the body of water will become brine.[3]

Because of the density of brine, swimmers are more buoyant in brine than in fresh or ordinary salt water. Examples of such brine lakes are the Dead Sea and the Great Salt Lake.[4]

Bodies of brine may also form on the ocean floor at cold seeps. These are sometimes called brine lakes, but are more frequently referred to as brine pools. It is possible to observe waves on the surface of these bodies.[5]

Man-made bodies of brine are created for edible salt production. These can be referred to as brine ponds.[بحاجة لمصدر]


المهددات والتدهور العالمي

Saline lakes are declining worldwide on every continent except Antarctica, mainly due to human causes, such as damming, diversions, and withdrawals. One of the largest factors causing this decline is agricultural irrigation.[2] Among the most commonly cited examples is the Aral Sea, which has shrunk 90% in volume and 74% in area, which is mainly because of irrigation.

Another anthropogenic threat is climate change. Human-caused climate change is increasing temperature in many arid regions, drying soil, increasing evaporation, and reducing inflows to saline lakes.[6]

Decline of saline lakes leads to many environmental problems, including human problems, such as toxic dust storms and air pollution, disrupted local water cycles, economic losses, loss of ecosystems, and more. It can even be more costly. For example, in the case of the decline of Owens Lake, dust stirred up from the dry lakebed has led to air quality higher than allowed by US-air quality standards. This has resulted in the city of Los Angeles spending $3.6 billion over the next 25 years to mitigate dust from the desiccated lakebed, which is more than the value of the diverted water.[2]

Solutions to the decline of saline lakes can be multifaceted, and include water conservation and water budgeting, and mitigating climate change.

قائمة

Note: Some of the following are also partly fresh and/or brackish water.

معرض صور

انظر أيضاً

المراجع

  1. ^ Hammer, U. T. (1986). Saline Lake Ecosystems of the World. Springer. pp. 14–15. ISBN 90-6193-535-0. Retrieved 5 June 2020.
  2. ^ أ ب ت Wurtsbaugh, Wayne A.; Miller, Craig; Null, Sarah E.; DeRose, R. Justin; Wilcock, Peter; Hahnenberger, Maura; Howe, Frank; Moore, Johnnie (October 2017). "Decline of the world's saline lakes". Nature Geoscience (in الإنجليزية). 10 (11): 816–821. doi:10.1038/ngeo3052. ISSN 1752-0908. Retrieved 28 Feb 2023.
  3. ^ Mayo, Alan L.; Tingey, David G.; Rey, Kevin A.; Winkel, Tony D.; McBride, John H.; Nelson, Stephen T.; Carling, Gregory T.; Bruthans, Jiri; Petersen, Erik C. (December 2020). "Shallow groundwater flow and inverted fresh/saline-water interface in a hypersaline endorheic basin (Great Basin, USA)". Hydrogeology Journal (in الإنجليزية). 28 (8): 2877–2902. doi:10.1007/s10040-020-02209-8. ISSN 1431-2174. S2CID 221109949.
  4. ^ Gwynn, J. Wallace (1980). Great Salt Lake (in الإنجليزية). Utah Geological Survey. ISBN 978-1-55791-083-7.
  5. ^ "NOAA Ocean Explorer: Expedition to the Deep Slope: May 31 Log". www.oceanexplorer.noaa.gov. Retrieved 30 March 2018.
  6. ^ Wang, Jida; Song, Chunqiao; Reager, John T.; Yao, Fangfang; Famiglietti, James S.; Sheng, Yongwei; MacDonald, Glen M.; Brun, Fanny; Schmied, Hannes Müller; Marston, Richard A.; Wada, Yoshihide (December 2018). "Recent global decline in endorheic basin water storages". Nature Geoscience (in الإنجليزية). 11 (12): 926–932. doi:10.1038/s41561-018-0265-7. ISSN 1752-0908. PMC 6267997. PMID 30510596. S2CID 54555847. Retrieved 28 Feb 2023.

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