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Meromictic lake

January 01, 1970

A meromictic lake is a lake which has layers of water that do not intermix.[1] In ordinary, holomictic lakes, at least once each year, there is a physical mixing of the surface and the deep waters.[2]

McGinnis Lake is a meromictic lake within the Petroglyphs Provincial Park.
Lac Pavin in France is a meromictic crater lake.

The term meromictic was coined by the Austrian Ingo Findenegg in 1935, apparently based on the older word holomictic. The concepts and terminology used in describing meromictic lakes were essentially complete following some additions by G. Evelyn Hutchinson in 1937.[3][4][5]

Characteristics edit

 
Typical mixing pattern for a dimictic lake. This does not occur in meromictic lakes

Most lakes are holomictic: at least once per year, the surface and the deep waters mix. In monomictic lakes, the mixing occurs once per year; in dimictic lakes, it occurs twice a year (typically spring and autumn), and in polymictic lakes, the mixing occurs several times a year. In meromictic lakes, the layers of water can remain unmixed for years, decades, or centuries.

Meromictic lakes can usually be divided into three sections or layers. The bottom layer is the monimolimnion; the waters in this portion of the lake circulate little, and are generally hypoxic and saltier than the rest of the lake. The top layer is the mixolimnion, and essentially behaves like a holomictic lake. The area in between is the chemocline, or chemolimnion.[6]

The lack of mixing between layers creates radically different environments for life: the stratification, or stable layering, of lake waters means that the bottom layer receives little oxygen from the atmosphere, hence becomes depleted of oxygen. While the surface layer may have 10 mg/L or more dissolved oxygen in summer, the depths of a meromictic lake can have less than 1 mg/L.[7] Very few organisms can live in such an oxygen-poor environment. One exception is purple sulfur bacteria. These bacteria, commonly found at the top of the monimolimnion in such lakes, use sulfur compounds such as sulfides in photosynthesis. These compounds are produced by decomposition of organic sediments in oxygen-poor environments. The monimolimnion is often rich in phosphorus and nitrogen. These factors combine to create an ideal environment for bacterial growth. The mixolimnion can have similar qualities. However, the types of bacteria that can grow at the surface are determined by the amount of light received at the surface.[8]

A meromictic lake may form because the basin is unusually deep and steep-sided compared to the lake's surface area, or because the lower layer of the lake is highly saline and denser than the upper layers of water.[9] However, human influence can lead to cultural meromixis occurring.[10][11][12] The increased use of road salt as a deicing strategy, particularly in northern latitude regions, can disturb the natural mixing cycles in lakes by inhibiting mixing.[13][14] As salt is flushed into aquatic systems at high concentrations in late winter/early spring, it accumulates in the deepest layer of lakes leading to incomplete mixing.  

Stratification in meromictic lakes can be either endogenic or ectogenic. Endogenic means the patterns seen in the lake are caused by internal events, such as organic matter accumulating in the sediments and decaying, whereas ectogenic means the patterns seen are caused by external causes, like an intrusion of saltwater settling in the hypolimnion, preventing it from mixing.[15]

The layers of sediment at the bottom of a meromictic lake remain relatively undisturbed because there is little physical mixing and few living organisms to agitate them. There is also little chemical decomposition. For this reason, cores of the sediment at the bottom of meromictic lakes are important in tracing past changes in climate at the lake, by examining trapped pollen grains and the types of sediments [see Proxy (climate)].

When the layers do mix for whatever reason, the consequences can be devastating for organisms that normally live in the mixolimnion. This layer is usually much smaller in volume than the monimolimnion. When the layers mix, the oxygen concentration at the surface will decrease dramatically. This can result in the death of many organisms, such as fish, that require oxygen.

Occasionally, carbon dioxide, methane, or other dissolved gases can build up relatively undisturbed in the lower layers of a meromictic lake. When the stratification is disturbed, as could happen from an earthquake, a limnic eruption may result. In 1986, a notable event of this type took place at Lake Nyos in Cameroon, causing nearly 1,800 deaths.[16][17][18] In the following decades after this disaster, active research and management has been done to mitigate gas buildup in the future through the Nyos Organ Pipes Program (NOPP).[19] The NOPP program placed large organ pipes into Lake Nyos, to reach the monimolimnion where harmful dissolved gases built up, that allow for gas release to the atmosphere, effectively degassing the monimolimnion.[19] Since 2019, Lake Nyos has successfully been degassed to a nonhazardous concentration of dissolved gas.[19] Paralleling Lake Nyos, Lake Kivu is another lake that poses a potentially fatal threat to the community. Some management strategies have suggested taking a different approach, moving gases from the monimolimnion to the mixolimnion, rather than degassing to the atmosphere through organ pipes.[20]

While it is mainly lakes that are meromictic, the world's largest meromictic basin is the Black Sea. The deep waters below 50 m (160 ft) do not mix with the upper layers that receive oxygen from the atmosphere. As a result, over 90% of the deeper Black Sea volume is anoxic water. The Caspian Sea is anoxic below 100 m (330 ft). The Baltic Sea is persistently stratified, with dense, highly saline water comprising the bottom layer, and large areas of hypoxic sediments (see Baltic Sea hypoxia).

 
Strandvatnet in Nordland down to the left; only a small isthmus separates the lake from Ofotfjord.
 
Lac du Bourget is the largest and deepest lake in France
 
Green Lake is a meromictic lake near Syracuse, New York.
 
Sunfish Lake is a meromictic lake near Waterloo, Ontario.
 
Big Soda Lake is a meromictic lake in a volcanic crater near Fallon, Nevada
 
Soapy foam on the shore of Soap Lake in Washington

List of meromictic lakes edit

 
Lake Pakasaivo, a meromictic lake in Muonio, Finland

There are meromictic lakes all over the world. The distribution appears to be clustered, but this may be due to incomplete investigations. Depending on the exact definition of "meromictic", the ratio between meromictic and holomictic lakes worldwide is around 1:1000.[21]

Africa edit

Antarctica edit

Asia edit

Australia edit

Europe edit

North America edit

References edit

  1. ^ Wetzel, Robert G. (2001). Limnology: Lake and River Ecosystems (Third ed.). New York: Academic Press. ISBN 978-0-12-744760-5.
  2. ^ Lewis, William M. Jr. (1983). (PDF). Canadian Journal of Fisheries and Aquatic Sciences. 40 (10): 1779–1787. doi:10.1139/f83-207. Archived from the original (PDF) on 6 March 2009.
  3. ^ Hakala, Anu (27 February 2004). "Meromixis as a part of lake evolution – observations and a revised classification of true meromictic lakes in Finland" (PDF). Boreal Environment Research. 9: 37–53. ISSN 1239-6095.
  4. ^ Findenegg, Ingo (1935). "Limnologische Untersuchungen im Kärntner Seengebiete. Ein Beitrag zur Kenntnis des Stoffhaushaltes in Alpenseen". Internationale Revue der Gesamte Hydrobiologie (in German). 32: 369–423. As cited by Hakala (2004).
  5. ^ Hutchinson, G. Evelyn (1937). "A contribution to the limnology of arid regions". Transactions of the Connecticut Academy of Arts and Sciences. 33: 47–132. As cited by Hakala (2004).
  6. ^ Walker, K. F. (March 1974). "The Stability of Meromictic Lakes in Central Washington". Limnology and Oceanography. 19 (2): 209–222. Bibcode:1974LimOc..19..209W. doi:10.4319/lo.1974.19.2.0209. JSTOR 2834407.
  7. ^ Lampert, Winfried & Sommer, Ulrich (1997). Limnoecology: The Ecology of Lakes and Streams. Translated by James F. Haney. Oxford University Press. ISBN 978-0-19-509592-0.
  8. ^ Fry, Brian (January 1986). "Sources of Carbon and Sulfur Nutrition for Consumers in Three Meromictic Lakes of New York State". Limnology and Oceanography. 31 (1): 79–88. Bibcode:1986LimOc..31...79F. CiteSeerX 10.1.1.420.7035. doi:10.4319/lo.1986.31.1.0079. JSTOR 2836641. PMID 11539668.
  9. ^ Stewart, K. M.; Walker, K. F.; Likens, G. E. (1 January 2009), "Meromictic Lakes", in Likens, Gene E. (ed.), Encyclopedia of Inland Waters, Oxford: Academic Press, pp. 589–602, doi:10.1016/b978-012370626-3.00027-2, ISBN 978-0-12-370626-3, retrieved 12 April 2024
  10. ^ Sibert, Ryan J.; Koretsky, Carla M.; Wyman, Davina A. (2015). "Cultural meromixis: Effects of road salt on the chemical stratification of an urban kettle lake". Chemical Geology. 395: 126–137. Bibcode:2015ChGeo.395..126S. doi:10.1016/j.chemgeo.2014.12.010.
  11. ^ Dupuis, Danielle; Sprague, Emily; Docherty, Kathryn M.; Koretsky, Carla M. (15 April 2019). "The influence of road salt on seasonal mixing, redox stratification and methane concentrations in urban kettle lakes". Science of the Total Environment. 661: 514–521. Bibcode:2019ScTEn.661..514D. doi:10.1016/j.scitotenv.2019.01.191. ISSN 0048-9697. PMID 30682604.
  12. ^ Kjensmo, Johannes (1997). "[No title found]". Hydrobiologia. 347 (1/3): 151–159. doi:10.1023/A:1003035705729.
  13. ^ Ladwig, Robert; Rock, Linnea A.; Dugan, Hilary A. (2023). "Impact of salinization on lake stratification and spring mixing". Limnology and Oceanography Letters. 8 (1): 93–102. Bibcode:2023LimOL...8...93L. doi:10.1002/lol2.10215. ISSN 2378-2242.
  14. ^ Smoll, John P.; Brown, S. R.; McNeely, R. N. (1983). "Cultural disturbances and trophic history of a small meromictic lake from central Canada". Hydrobiologia. 103 (1): 125–130. doi:10.1007/BF00028439. ISSN 0018-8158.
  15. ^ Wetzel, R. G. (2001). Limnology: Lake and river ecosystems. San Diego: Academic Press.
  16. ^ Krajick, Kevin (28 March 2003). "Africa's Davids and Goliaths". Science. 299 (5615): 2024–2026. doi:10.1126/science.299.5615.2024. ISSN 0036-8075. PMID 12663915.
  17. ^ Boehrer, Bertram; Saiki, Kazuto; Ohba, Takeshi; Tanyileke, Greg; Rouwet, Dmitri; Kusakabe, Minoru (28 July 2021). "Carbon Dioxide in Lake Nyos, Cameroon, Estimated Quantitatively From Sound Speed Measurements". Frontiers in Earth Science. 9. doi:10.3389/feart.2021.645011. ISSN 2296-6463.
  18. ^ Tassi, Franco; Rouwet, Dmitri (12 February 2014). "An overview of the structure, hazards, and methods of investigation of Nyos-type lakes from the geochemical perspective". Journal of Limnology. 73 (1). doi:10.4081/jlimnol.2014.836. ISSN 1723-8633.
  19. ^ a b c Halbwachs, Michel; Sabroux, Jean-Christophe; Kayser, Gaston (2020). "Final step of the 32-year Lake Nyos degassing adventure: Natural CO2 recharge is to be balanced by discharge through the degassing pipes". Journal of African Earth Sciences. 167: 103575. doi:10.1016/j.jafrearsci.2019.103575.
  20. ^ Hirslund, F.; Morkel, P. (2020). "Managing the dangers in Lake Kivu – How and why". Journal of African Earth Sciences. 161: 103672. Bibcode:2020JAfES.16103672H. doi:10.1016/j.jafrearsci.2019.103672.
  21. ^ Hakala, Anu (2005). Paleoenvironmental and paleoclimatic studies on the sediments of Lake Vähä-Pitkusta and observations of meromixis (Doctoral dissertation). University of Helsinki. ISBN 952-10-2154-3.
  22. ^ Gibson, John AE. "The meromictic lakes and stratified marine basins of the Vestfold Hills, East Antarctica." Antarctic Science 11.2 (1999): 175-192.
  23. ^ Likens, Gene E., ed. (2010). Lake Ecosystem Ecology: A Global Perspective. Academic Press. p. 186. ISBN 978-0-12-382003-7. A derivative of the Encyclopedia of Inland Waters.
  24. ^ "Lago di Cadagno". Centro Biologia Alpina (in Italian). 6 December 2014. Retrieved 23 February 2015.
  25. ^ Jacquet, Stéphan; Briand, Jean-François; et al. (2003). (PDF). Harmful Algae. 4 (4): 651–672. CiteSeerX 10.1.1.541.2297. doi:10.1016/j.hal.2003.12.006. S2CID 51989121. Archived from the original (PDF) on 6 March 2009. Retrieved 13 May 2008.
  26. ^ Lewis, Ted; Lamoureux, Scott F.; Normandeau, Alexandre; Dugan, Hilary A. (2017). "Hyperpycnal flows control the persistence and flushing of hypoxic high conductivity bottom water in a High Arctic lake". Arctic Science. doi:10.1139/as-2017-0022. hdl:1807/81139.
  27. ^ Council Meeting - 19 Jan 2016 - Municipality of Trent Lakes
  28. ^ Ontario Parks: Petroglyphs
  29. ^ Sanderson, B.; Perry, K. & Pedersen, T. (15 June 1986). "Vertical Diffusion in Meromictic Powell Lake, British Columbia". Journal of Geophysical Research. 91 (C-6): 7647–7655. Bibcode:1986JGR....91.7647S. doi:10.1029/JC091iC06p07647.
  30. ^ Smol, John P.; Brown, S. R.; McNeely, R. N. (1983). "Cultural disturbances and trophic history of a small meromictic lake from central Canada". Paleolimnology. pp. 125–130. doi:10.1007/978-94-009-7290-2_20. ISBN 978-94-009-7292-6.
  31. ^ Heart Lake Conservation Area: Master Plan, Heart Lake Conservation Area Master Plan Advisory Committee, Conservation Land Planning Group, TRCA
  32. ^ Toney, Jaime L.; Rodbell, Donald T.; Miller, Norton G. (2003). "Sedimentologic and palynologic records of the last deglaciation and Holocene from Ballston Lake, New York" (PDF). Quaternary Research. 60 (2): 189–199. Bibcode:2003QuRes..60..189T. doi:10.1016/S0033-5894(03)00093-0. S2CID 129373891. Retrieved 9 September 2018.
  33. ^ Cloern, James E.; Cole, Brian E. & Oremland, Ronald S. (November 1983). "Autotrophic Processes in Meromictic Big Soda Lake, Nevada". Limnology and Oceanography. 28 (6): 1049–1061. Bibcode:1983LimOc..28.1049C. doi:10.4319/lo.1983.28.6.1049. JSTOR 2836268.
  34. ^ Lambrecht, Nicholas; Wittkop, Chad; Katsev, Sergei; Fakhraee, Mojtaba; Swanner, Elizabeth (2018). "Geochemical Characterization of Two Ferruginous Meromictic Lakes in the Upper Midwest, USA". Journal of Geophysical Research: Biogeosciences. 123 (10): 3403–3422. Bibcode:2018JGRG..123.3403L. doi:10.1029/2018JG004587.
  35. ^ Lambrecht, Nicholas; Wittkop, Chad; Katsev, Sergei; Fakhraee, Mojtaba; Swanner, Elizabeth D. (2018). "Geochemical Characterization of Two Ferruginous Meromictic Lakes in the Upper Midwest, USA". Journal of Geophysical Research: Biogeosciences. 123 (10): 3403–3422. Bibcode:2018JGRG..123.3403L. doi:10.1029/2018JG004587.
  36. ^ "Lakes and Ponds". Pictured Rocks National Lakeshore, Michigan. National Park Service, US Dept of Interior. Retrieved 23 February 2016.
  37. ^ Anderson, G.C. (July 1958). "Some Limnological Features of a Shallow Saline Meromictic Lake". Limnology and Oceanography. 3 (3): 259–270. Bibcode:1958LimOc...3..259A. doi:10.4319/lo.1958.3.3.0259.
  38. ^ Parkin, T.B. & Brock, T.D. (September 1981). "The Role of Phototrophic Bacteria in the Sulfur Cycle of a Meromictic Lake". Limnology and Oceanography. 26 (5): 880–890. Bibcode:1981LimOc..26..880P. doi:10.4319/lo.1981.26.5.0880.
  39. ^ Weimar, Walter C. & Lee, G. Fred (May 1973). "Some Considerations of the Chemical Limnology of Meromictic Lake Mary". Limnology and Oceanography. 18 (3): 414–425. Bibcode:1973LimOc..18..414W. doi:10.4319/lo.1973.18.3.0414. JSTOR 2834466.
  40. ^ McCoy, G.A. (1977). "Limnological studies in southeastern Alaska and water quality measurements along the TAPS route during pipeline construction". Circular 751-B: USGS Survey in Alaska, Accomplishments During 1976. US Geological Survey: B7.

External links edit

 
Wikimedia Commons has media related to Meromictic lakes.
 
Look up meromictic lake or monimolimnion in Wiktionary, the free dictionary.
  • , part of an educational website Water on the Web operated by the University of Minnesota, Duluth. Retrieved 11-March-2007.

January 01, 1970
meromictic, lake, meromictic, lake, lake, which, layers, water, that, intermix, ordinary, holomictic, lakes, least, once, each, year, there, physical, mixing, surface, deep, waters, mcginnis, lake, meromictic, lake, within, petroglyphs, provincial, park, pavin. A meromictic lake is a lake which has layers of water that do not intermix 1 In ordinary holomictic lakes at least once each year there is a physical mixing of the surface and the deep waters 2 McGinnis Lake is a meromictic lake within the Petroglyphs Provincial Park Lac Pavin in France is a meromictic crater lake The term meromictic was coined by the Austrian Ingo Findenegg in 1935 apparently based on the older word holomictic The concepts and terminology used in describing meromictic lakes were essentially complete following some additions by G Evelyn Hutchinson in 1937 3 4 5 Contents 1 Characteristics 2 List of meromictic lakes 2 1 Africa 2 2 Antarctica 2 3 Asia 2 4 Australia 2 5 Europe 2 6 North America 3 References 4 External linksCharacteristics edit nbsp Typical mixing pattern for a dimictic lake This does not occur in meromictic lakes Most lakes are holomictic at least once per year the surface and the deep waters mix In monomictic lakes the mixing occurs once per year in dimictic lakes it occurs twice a year typically spring and autumn and in polymictic lakes the mixing occurs several times a year In meromictic lakes the layers of water can remain unmixed for years decades or centuries Meromictic lakes can usually be divided into three sections or layers The bottom layer is the monimolimnion the waters in this portion of the lake circulate little and are generally hypoxic and saltier than the rest of the lake The top layer is the mixolimnion and essentially behaves like a holomictic lake The area in between is the chemocline or chemolimnion 6 The lack of mixing between layers creates radically different environments for life the stratification or stable layering of lake waters means that the bottom layer receives little oxygen from the atmosphere hence becomes depleted of oxygen While the surface layer may have 10 mg L or more dissolved oxygen in summer the depths of a meromictic lake can have less than 1 mg L 7 Very few organisms can live in such an oxygen poor environment One exception is purple sulfur bacteria These bacteria commonly found at the top of the monimolimnion in such lakes use sulfur compounds such as sulfides in photosynthesis These compounds are produced by decomposition of organic sediments in oxygen poor environments The monimolimnion is often rich in phosphorus and nitrogen These factors combine to create an ideal environment for bacterial growth The mixolimnion can have similar qualities However the types of bacteria that can grow at the surface are determined by the amount of light received at the surface 8 A meromictic lake may form because the basin is unusually deep and steep sided compared to the lake s surface area or because the lower layer of the lake is highly saline and denser than the upper layers of water 9 However human influence can lead to cultural meromixis occurring 10 11 12 The increased use of road salt as a deicing strategy particularly in northern latitude regions can disturb the natural mixing cycles in lakes by inhibiting mixing 13 14 As salt is flushed into aquatic systems at high concentrations in late winter early spring it accumulates in the deepest layer of lakes leading to incomplete mixing Stratification in meromictic lakes can be either endogenic or ectogenic Endogenic means the patterns seen in the lake are caused by internal events such as organic matter accumulating in the sediments and decaying whereas ectogenic means the patterns seen are caused by external causes like an intrusion of saltwater settling in the hypolimnion preventing it from mixing 15 The layers of sediment at the bottom of a meromictic lake remain relatively undisturbed because there is little physical mixing and few living organisms to agitate them There is also little chemical decomposition For this reason cores of the sediment at the bottom of meromictic lakes are important in tracing past changes in climate at the lake by examining trapped pollen grains and the types of sediments see Proxy climate When the layers do mix for whatever reason the consequences can be devastating for organisms that normally live in the mixolimnion This layer is usually much smaller in volume than the monimolimnion When the layers mix the oxygen concentration at the surface will decrease dramatically This can result in the death of many organisms such as fish that require oxygen Occasionally carbon dioxide methane or other dissolved gases can build up relatively undisturbed in the lower layers of a meromictic lake When the stratification is disturbed as could happen from an earthquake a limnic eruption may result In 1986 a notable event of this type took place at Lake Nyos in Cameroon causing nearly 1 800 deaths 16 17 18 In the following decades after this disaster active research and management has been done to mitigate gas buildup in the future through the Nyos Organ Pipes Program NOPP 19 The NOPP program placed large organ pipes into Lake Nyos to reach the monimolimnion where harmful dissolved gases built up that allow for gas release to the atmosphere effectively degassing the monimolimnion 19 Since 2019 Lake Nyos has successfully been degassed to a nonhazardous concentration of dissolved gas 19 Paralleling Lake Nyos Lake Kivu is another lake that poses a potentially fatal threat to the community Some management strategies have suggested taking a different approach moving gases from the monimolimnion to the mixolimnion rather than degassing to the atmosphere through organ pipes 20 While it is mainly lakes that are meromictic the world s largest meromictic basin is the Black Sea The deep waters below 50 m 160 ft do not mix with the upper layers that receive oxygen from the atmosphere As a result over 90 of the deeper Black Sea volume is anoxic water The Caspian Sea is anoxic below 100 m 330 ft The Baltic Sea is persistently stratified with dense highly saline water comprising the bottom layer and large areas of hypoxic sediments see Baltic Sea hypoxia nbsp Strandvatnet in Nordland down to the left only a small isthmus separates the lake from Ofotfjord nbsp Lac du Bourget is the largest and deepest lake in France nbsp Green Lake is a meromictic lake near Syracuse New York nbsp Sunfish Lake is a meromictic lake near Waterloo Ontario nbsp Big Soda Lake is a meromictic lake in a volcanic crater near Fallon Nevada nbsp Soapy foam on the shore of Soap Lake in WashingtonList of meromictic lakes edit nbsp Lake Pakasaivo a meromictic lake in Muonio Finland There are meromictic lakes all over the world The distribution appears to be clustered but this may be due to incomplete investigations Depending on the exact definition of meromictic the ratio between meromictic and holomictic lakes worldwide is around 1 1000 21 Africa edit Lake Nyos and Lake Monoun in Cameroon Lake Kivu in Rwanda and the Democratic Republic of the Congo Lake Tanganyika in Burundi the Democratic Republic of the Congo Tanzania and Zambia Lake Malawi located between Malawi Mozambique and Tanzania Antarctica edit Lake Vanda in Ross Dependency 21 lakes including Organic Lake in Vestfold Hills 22 Asia edit Lake Shira in the Republic of Khakassia Russia Keracut Beach Lake Penang National Park northwest Penang island Malaysia Jellyfish Lake on Eil Malk in Palau Zigetangcuo Lake a crenogenic lake in Nagqu Tibet China It is the meromictic lake located at the highest altitude 23 Kaptai Lake in Rangamati Hill District at the southeastern part of Bangladesh It was created by constructing a dam at Kaptai to set up a hydroelectric power plant Lake Matano Sulawesi island Indonesia Australia edit Lake Fidler in the Tasmanian Wilderness World Heritage Area Europe edit Karntner Seen de Alpine lakes in the Austrian province of Carinthia studied by Ingo Findenegg in the 1930s Alatsee small alpine lake in Germany s state of Bavaria near the city of Fussen and Neuschwanstein Castle Lake Vaha Pitkusta fi in Finland Lake Pakasaivo fi in Finland Lough Furnace in Ireland Salvatnet Kilevann Tronstadvatn Birkelandsvatn Rorholtfjorden Botnvatn Rorhopvatn and Strandvatn lakes in Norway Czarne Lake in Drawa National Park Poland Lake Mogilnoye in Murmansk Oblast of Russia Lakes El Tobar and La Cruz in Spain Lake Cadagno crenogenic in Switzerland and the location of the Alpine Biology Center 24 Lac Pavin and Lac du Bourget in France 25 The Black Sea is also considered to be meromictic North America edit Canada Lake McKay in Ottawa Ontario Lakes A and C1 on Ellesmere Island Nunavut 26 Blackcat Lake near Dorset Ontario in Frost Centre Crawford Lake near Milton Ontario Picard Lake near Lakehurst Ontario 27 Mahoney Lake in the Okanagan Valley British Columbia McGinnis Lake in Petroglyphs Provincial Park Ontario 28 Pink Lake in Gatineau Park Quebec Powell Lake in the town of Powell River British Columbia 29 Sunfish Lake near Waterloo Ontario Little Round Lake Ontario in Central Frontenac Ontario 30 Teapot Lake Heart Lake Conservation Area Brampton Ontario See also Heart Lake Ontario 31 Central America Lake Atitlan endorheic lake in the department of Solola Guatemala United States Ballston Lake north northwest of Albany New York 32 Big Soda Lake Nevada 33 Brownie Lake in Minneapolis Minnesota 34 Canyon Lake near Big Bay Michigan 35 Chapel Lake in Pictured Rocks National Lakeshore near Munising Michigan 36 Great Salt Lake near Salt Lake City Utah Green Lake and Round Lake in Green Lakes State Park near Syracuse New York Hot Lake in Okanogan County Washington 37 Irondequoit Bay near Rochester New York is also considered meromictic use of road salt has been cited as the main reason for its change Knaack Lake Wisconsin 38 Lake Mary in the northwest corner of Vilas County Wisconsin 39 Lower Mystic Lake in Arlington and Medford Massachusetts Redoubt Lake near Sitka Alaska one of North America s largest meromictic lakes 40 Soap Lake in WashingtonReferences edit Wetzel Robert G 2001 Limnology Lake and River Ecosystems Third ed New York Academic Press ISBN 978 0 12 744760 5 Lewis William M Jr 1983 A revised classification of lakes based on mixing PDF Canadian Journal of Fisheries and Aquatic Sciences 40 10 1779 1787 doi 10 1139 f83 207 Archived from the original PDF on 6 March 2009 Hakala Anu 27 February 2004 Meromixis as a part of lake evolution observations and a revised classification of true meromictic lakes in Finland PDF Boreal Environment Research 9 37 53 ISSN 1239 6095 Findenegg Ingo 1935 Limnologische Untersuchungen im Karntner Seengebiete Ein Beitrag zur Kenntnis des Stoffhaushaltes in Alpenseen Internationale Revue der Gesamte Hydrobiologie in German 32 369 423 As cited by Hakala 2004 Hutchinson G Evelyn 1937 A contribution to the limnology of arid regions Transactions of the Connecticut Academy of Arts and Sciences 33 47 132 As cited by Hakala 2004 Walker K F March 1974 The Stability of Meromictic Lakes in Central Washington Limnology and Oceanography 19 2 209 222 Bibcode 1974LimOc 19 209W doi 10 4319 lo 1974 19 2 0209 JSTOR 2834407 Lampert Winfried amp Sommer Ulrich 1997 Limnoecology The Ecology of Lakes and Streams Translated by James F Haney Oxford University Press ISBN 978 0 19 509592 0 Fry Brian January 1986 Sources of Carbon and Sulfur Nutrition for Consumers in Three Meromictic Lakes of New York State Limnology and Oceanography 31 1 79 88 Bibcode 1986LimOc 31 79F CiteSeerX 10 1 1 420 7035 doi 10 4319 lo 1986 31 1 0079 JSTOR 2836641 PMID 11539668 Stewart K M Walker K F Likens G E 1 January 2009 Meromictic Lakes in Likens Gene E ed Encyclopedia of Inland Waters Oxford Academic Press pp 589 602 doi 10 1016 b978 012370626 3 00027 2 ISBN 978 0 12 370626 3 retrieved 12 April 2024 Sibert Ryan J Koretsky Carla M Wyman Davina A 2015 Cultural meromixis Effects of road salt on the chemical stratification of an urban kettle lake Chemical Geology 395 126 137 Bibcode 2015ChGeo 395 126S doi 10 1016 j chemgeo 2014 12 010 Dupuis Danielle Sprague Emily Docherty Kathryn M Koretsky Carla M 15 April 2019 The influence of road salt on seasonal mixing redox stratification and methane concentrations in urban kettle lakes Science of the Total Environment 661 514 521 Bibcode 2019ScTEn 661 514D doi 10 1016 j scitotenv 2019 01 191 ISSN 0048 9697 PMID 30682604 Kjensmo Johannes 1997 No title found Hydrobiologia 347 1 3 151 159 doi 10 1023 A 1003035705729 Ladwig Robert Rock Linnea A Dugan Hilary A 2023 Impact of salinization on lake stratification and spring mixing Limnology and Oceanography Letters 8 1 93 102 Bibcode 2023LimOL 8 93L doi 10 1002 lol2 10215 ISSN 2378 2242 Smoll John P Brown S R McNeely R N 1983 Cultural disturbances and trophic history of a small meromictic lake from central Canada Hydrobiologia 103 1 125 130 doi 10 1007 BF00028439 ISSN 0018 8158 Wetzel R G 2001 Limnology Lake and river ecosystems San Diego Academic Press Krajick Kevin 28 March 2003 Africa s Davids and Goliaths Science 299 5615 2024 2026 doi 10 1126 science 299 5615 2024 ISSN 0036 8075 PMID 12663915 Boehrer Bertram Saiki Kazuto Ohba Takeshi Tanyileke Greg Rouwet Dmitri Kusakabe Minoru 28 July 2021 Carbon Dioxide in Lake Nyos Cameroon Estimated Quantitatively From Sound Speed Measurements Frontiers in Earth Science 9 doi 10 3389 feart 2021 645011 ISSN 2296 6463 Tassi Franco Rouwet Dmitri 12 February 2014 An overview of the structure hazards and methods of investigation of Nyos type lakes from the geochemical perspective Journal of Limnology 73 1 doi 10 4081 jlimnol 2014 836 ISSN 1723 8633 a b c Halbwachs Michel Sabroux Jean Christophe Kayser Gaston 2020 Final step of the 32 year Lake Nyos degassing adventure Natural CO2 recharge is to be balanced by discharge through the degassing pipes Journal of African Earth Sciences 167 103575 doi 10 1016 j jafrearsci 2019 103575 Hirslund F Morkel P 2020 Managing the dangers in Lake Kivu How and why Journal of African Earth Sciences 161 103672 Bibcode 2020JAfES 16103672H doi 10 1016 j jafrearsci 2019 103672 Hakala Anu 2005 Paleoenvironmental and paleoclimatic studies on the sediments of Lake Vaha Pitkusta and observations of meromixis Doctoral dissertation University of Helsinki ISBN 952 10 2154 3 Gibson John AE The meromictic lakes and stratified marine basins of the Vestfold Hills East Antarctica Antarctic Science 11 2 1999 175 192 Likens Gene E ed 2010 Lake Ecosystem Ecology A Global Perspective Academic Press p 186 ISBN 978 0 12 382003 7 A derivative of the Encyclopedia of Inland Waters Lago di Cadagno Centro Biologia Alpina in Italian 6 December 2014 Retrieved 23 February 2015 Jacquet Stephan Briand Jean Francois et al 2003 The proliferation of the toxic cyanobacterium Planktothrix rubescens following restoration of the largest natural French lake Lac du Bourget PDF Harmful Algae 4 4 651 672 CiteSeerX 10 1 1 541 2297 doi 10 1016 j hal 2003 12 006 S2CID 51989121 Archived from the original PDF on 6 March 2009 Retrieved 13 May 2008 Lewis Ted Lamoureux Scott F Normandeau Alexandre Dugan Hilary A 2017 Hyperpycnal flows control the persistence and flushing of hypoxic high conductivity bottom water in a High Arctic lake Arctic Science doi 10 1139 as 2017 0022 hdl 1807 81139 Council Meeting 19 Jan 2016 Municipality of Trent Lakes Ontario Parks Petroglyphs Sanderson B Perry K amp Pedersen T 15 June 1986 Vertical Diffusion in Meromictic Powell Lake British Columbia Journal of Geophysical Research 91 C 6 7647 7655 Bibcode 1986JGR 91 7647S doi 10 1029 JC091iC06p07647 Smol John P Brown S R McNeely R N 1983 Cultural disturbances and trophic history of a small meromictic lake from central Canada Paleolimnology pp 125 130 doi 10 1007 978 94 009 7290 2 20 ISBN 978 94 009 7292 6 Heart Lake Conservation Area Master Plan Heart Lake Conservation Area Master Plan Advisory Committee Conservation Land Planning Group TRCA Toney Jaime L Rodbell Donald T Miller Norton G 2003 Sedimentologic and palynologic records of the last deglaciation and Holocene from Ballston Lake New York PDF Quaternary Research 60 2 189 199 Bibcode 2003QuRes 60 189T doi 10 1016 S0033 5894 03 00093 0 S2CID 129373891 Retrieved 9 September 2018 Cloern James E Cole Brian E amp Oremland Ronald S November 1983 Autotrophic Processes in Meromictic Big Soda Lake Nevada Limnology and Oceanography 28 6 1049 1061 Bibcode 1983LimOc 28 1049C doi 10 4319 lo 1983 28 6 1049 JSTOR 2836268 Lambrecht Nicholas Wittkop Chad Katsev Sergei Fakhraee Mojtaba Swanner Elizabeth 2018 Geochemical Characterization of Two Ferruginous Meromictic Lakes in the Upper Midwest USA Journal of Geophysical Research Biogeosciences 123 10 3403 3422 Bibcode 2018JGRG 123 3403L doi 10 1029 2018JG004587 Lambrecht Nicholas Wittkop Chad Katsev Sergei Fakhraee Mojtaba Swanner Elizabeth D 2018 Geochemical Characterization of Two Ferruginous Meromictic Lakes in the Upper Midwest USA Journal of Geophysical Research Biogeosciences 123 10 3403 3422 Bibcode 2018JGRG 123 3403L doi 10 1029 2018JG004587 Lakes and Ponds Pictured Rocks National Lakeshore Michigan National Park Service US Dept of Interior Retrieved 23 February 2016 Anderson G C July 1958 Some Limnological Features of a Shallow Saline Meromictic Lake Limnology and Oceanography 3 3 259 270 Bibcode 1958LimOc 3 259A doi 10 4319 lo 1958 3 3 0259 Parkin T B amp Brock T D September 1981 The Role of Phototrophic Bacteria in the Sulfur Cycle of a Meromictic Lake Limnology and Oceanography 26 5 880 890 Bibcode 1981LimOc 26 880P doi 10 4319 lo 1981 26 5 0880 Weimar Walter C amp Lee G Fred May 1973 Some Considerations of the Chemical Limnology of Meromictic Lake Mary Limnology and Oceanography 18 3 414 425 Bibcode 1973LimOc 18 414W doi 10 4319 lo 1973 18 3 0414 JSTOR 2834466 McCoy G A 1977 Limnological studies in southeastern Alaska and water quality measurements along the TAPS route during pipeline construction Circular 751 B USGS Survey in Alaska Accomplishments During 1976 US Geological Survey B7 External links edit nbsp Wikimedia Commons has media related to Meromictic lakes nbsp Look up meromictic lake or monimolimnion in Wiktionary the free dictionary Density Stratification part of an educational website Water on the Web operated by the University of Minnesota Duluth Retrieved 11 March 2007 Lake Fidler revived photo outing com review over Pantai Kerachut with Memomictic lake Portal nbsp Lakes Retrieved from https en wikipedia org w index php title Meromictic lake amp oldid 1220950998 Characteristics, wikipedia, wiki, book, books, library,

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