高盐湖泊

高盐湖泊（简称盐湖）是一种含有显著浓度的氯化钠或其他盐的陆封水体，其盐含量超过了海洋水（3.5％，即35克/升或0.29磅/美加仑）。少部分的微生物和甲壳类物种可在这种高盐度环境中茁壮成长，但这种环境对大多数生命体是不适宜的^[1]。其中一些物种在干燥时进入休眠状态，有些物种推估生存了超过2.5亿年^[2]。由于盐含量高，因此高盐湖泊的水面浮力很高。

世界上最咸的水体是位于南极麦克默多干燥谷唐胡安池。其体积约为3000立方米，但正不断变化中。唐胡安池的盐度水平超过44％^[3]（即比海水高12倍）。即使温度低于-50°C（-58°F）^[3]，其高盐度也会令唐胡安池不会冻结。麦克默多干燥谷中有其他高盐度水体，如万塔湖，其盐度超过35％（即比海水高10倍）。他们在冬天会被冰覆盖。

南极洲以外最高盐的湖泊是位于吉布提的阿萨勒湖^[4]，其盐度为34.8％（即比海水高10倍）。世界上最著名的高盐湖泊是死海（2010年为34.2％的盐度）和大盐湖（5-27％的可变盐度）。死海将以色列和巴勒斯坦西岸与约旦分开，是世界上最深的高盐湖泊，而阿拉鲁阿马潟湖是世界上最大的高盐湖泊^[5]。位于犹他州的大盐湖在面积上约是死海的三倍大，但比死海更浅，水位波动较大，其盐度在最低纪录水位时，为海水盐度的7.7倍，但当水位高时，其盐度仅下降到略高于海洋。^[6]^[7]^[8]

每个大陆都有高盐湖泊，它们通常在干旱或半干旱地区出现。^[9]

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参考文献编辑

^ Hammer, Ulrich T. Saline lake ecosystems of the world. Springer. 1986. ISBN 90-6193-535-0.
^ Vreeland, R.H.; Rosenzweig, W.D. & Powers, D.W. Isolation of a 250 million-year-old halotolerant bacterium from a primary salt crystal. Nature. 2000, 407 (6806): 897–900 [2017-07-05]. PMID 11057666. doi:10.1038/35038060. （原始内容存档于2017-03-19）.
^ ^3.0 ^3.1 Marion, G.M. A theoretical evaluation of mineral stability in Don Juan Pond, Wright Valley, Victoria Land. Antarctic Science. 1997, 9: 92–99 [2017-07-05]. doi:10.1017/S0954102097000114. （原始内容存档于2016-03-04）.
^ Quinn, Joyce A.; Woodward, Susan L. (编). Earth's Landscape: An Encyclopedia of the World's Geographic Features [2 volumes]. ABC-CLIO. 2015: 9. ISBN 978-1-61069-446-9.
^ Goetz, P.W. (编). The New Encyclopædia Britannica 3 15th: 937. 1986.
^ Wilkerson, Christine. Utah's Great Salt Lake and Ancient Lake Bonneville, PI39 – Utah Geological Survey. Geology.utah.gov. [2010-08-03]. （原始内容存档于2010-08-15）.
^ Allred, Ashley; Baxter, Bonnie. Microbial life in hypersaline environments. Science Education Resource Center at Carleton College. [2010-06-17]. （原始内容存档于2017-12-25）.
^ Kjeldsen, K.U.; Loy, A.; Jakobsen, T.F.; Thomsen, T.R.; et al. Diversity of sulfate-reducing bacteria from an extreme hypersaline sediment, Great Salt Lake (Utah). FEMS Microbiol. Ecol. (U.S. National Library of Medicine, National Institutes of Health). May 2007, 60 (2): 287–298. PMID 17367515. doi:10.1111/j.1574-6941.2007.00288.x.
^ Shadrin, N.V. The Crimean hypersaline lakes: towards development of scientific basis of integrated sustainable management (PDF). Institute of Biology of the Southern Seas. 2009 [2015-02-20]. （原始内容 (PDF)存档于2015年2月20日）.

[Hammer1986-1] Hammer, Ulrich T. Saline lake ecosystems of the world. Springer. 1986. ISBN 90-6193-535-0.

[Vreeland-2] Vreeland, R.H.; Rosenzweig, W.D. & Powers, D.W. Isolation of a 250 million-year-old halotolerant bacterium from a primary salt crystal. Nature. 2000, 407 (6806): 897–900 [2017-07-05]. PMID 11057666. doi:10.1038/35038060. （原始内容存档于2017-03-19）.

[Marion97-3] 3.0 ^3.1 Marion, G.M. A theoretical evaluation of mineral stability in Don Juan Pond, Wright Valley, Victoria Land. Antarctic Science. 1997, 9: 92–99 [2017-07-05]. doi:10.1017/S0954102097000114. （原始内容存档于2016-03-04）.

[Quinn2015-4] Quinn, Joyce A.; Woodward, Susan L. (编). Earth's Landscape: An Encyclopedia of the World's Geographic Features [2 volumes]. ABC-CLIO. 2015: 9. ISBN 978-1-61069-446-9.

[EncBr1986-5] Goetz, P.W. (编). The New Encyclopædia Britannica 3 15th: 937. 1986.

[Wilkerson-6] Wilkerson, Christine. Utah's Great Salt Lake and Ancient Lake Bonneville, PI39 – Utah Geological Survey. Geology.utah.gov. [2010-08-03]. （原始内容存档于2010-08-15）.

[Allred-7] Allred, Ashley; Baxter, Bonnie. Microbial life in hypersaline environments. Science Education Resource Center at Carleton College. [2010-06-17]. （原始内容存档于2017-12-25）.

[Kjeldsen-8] Kjeldsen, K.U.; Loy, A.; Jakobsen, T.F.; Thomsen, T.R.; et al. Diversity of sulfate-reducing bacteria from an extreme hypersaline sediment, Great Salt Lake (Utah). FEMS Microbiol. Ecol. (U.S. National Library of Medicine, National Institutes of Health). May 2007, 60 (2): 287–298. PMID 17367515. doi:10.1111/j.1574-6941.2007.00288.x.

[Shadrin2009-9] Shadrin, N.V. The Crimean hypersaline lakes: towards development of scientific basis of integrated sustainable management (PDF). Institute of Biology of the Southern Seas. 2009 [2015-02-20]. （原始内容 (PDF)存档于2015年2月20日）.

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高盐湖泊

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