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Lake stratification

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Title: Lake stratification  
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Subject: Hypolimnion, Pelagic zone, Photic zone, Thermocline, Limnology
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Lake stratification

Lake zones
Littoral zone
Limnetic zone
Profundal zone
Benthic zone
Lake stratification
Epilimnion
Metalimnion
Hypolimnion
Destratification
Lake types
Holomictic lake
   Monomictic lake
   Dimictic lake
   Polymictic lake
Meromictic lake
Amictic lake
Aquatic ecosystems
Wild fisheries

Lake stratification is the separation of lakes into three layers:

  1. Epilimnion - top of the lake.
  2. Metalimnion (or thermocline) - middle layer that may change depth throughout the day.
  3. Hypolimnion - the bottom layer.

The thermal stratification of lakes refers to a change in the temperature at different depths in the lake, and is due to the change in water's density with temperature.[1] Cold water is denser than warm water and the epilimnion generally consists of water that is not as dense as the water in the hypolimnion.[2] However, the temperature of maximum density for freshwater is 4 °C. In temperate regions where lake water warms up and cools through the seasons, a cyclical pattern of overturn occurs that is repeated from year to year as the cold dense water at the top of the lake sinks. For example, in dimictic lakes the lake water turns over during the spring and the fall. This process occurs more slowly in deeper water and as a result, a thermal bar may form.[3] If the stratification of water lasts for extended periods, the lake is meromictic. Conversely, for most of the time, the relatively shallower meres are unstratified; that is, the mere is considered all epilimnion.

The accumulation of dissolved carbon dioxide in three meromictic lakes in Africa (Lake Nyos and Lake Monoun in Cameroon and Lake Kivu in Rwanda) is potentially dangerous because if one of these lakes is triggered into limnic eruption, a very large quantity of carbon dioxide can quickly leave the lake and displace the oxygen needed for life by people and animals in the surrounding area.

Natural resource and environmental managers are often challenged by problems caused by lake and pond thermal stratification.[4][5][6] Fish die-offs have been directly associated with thermal gradients, stagnation, and ice cover.[7] Excessive growth of plankton may limit the recreational use of lakes and the commercial use of lake water. With severe thermal stratification in a lake, the quality of drinking water also can be adversely affected.[8] For fisheries managers, the spatial distribution of fish within a lake is often adversely affected by thermal stratification and in some cases may indirectly cause large die-offs of recreationally important fish.[9] One commonly used tool to reduce the severity of these lake management problems is to eliminate or lesson thermal stratification through aeration.[10] Many types of aeration equipment have been used to thermally destratify lakes. Aeration has met with some success, although it has rarely proved to be a panacea.[11]

Notes

  1. ^ University of Minnesota (2007)
  2. ^ Georgia Wildlife (2011)
  3. ^ University of Minnesota (2007)
  4. ^ Georgia Wildlife (2011)
  5. ^ Lackey (1972a)
  6. ^ Lackey (1972b)
  7. ^ Lackey and Holmes (1972)
  8. ^ Georgia Wildlife (2011)
  9. ^ Lackey and Holmes (1972)
  10. ^ Lackey (1972a)
  11. ^ Lackey (1972b)

References

  • Georgia Wildlife. 2011. Lake Stratification in Lake Lanier and its effects on the Chattahoochee River
  • Lackey, Robert T. 1972a. A technique for eliminating thermal stratification in lakes. Water Resources Bulletin, Journal of the American Water Resources Association. 8(1): 46-49.

http://onlinelibrary.wiley.com/doi/10.1111/j.1752-1688.1972.tb05092.x/abstract

  • Lackey, Robert T. 1972b. Response of physical and chemical parameters to eliminating thermal stratification in a reservoir. Water Resources Bulletin, Journal of the American Water Resources Association. 8(3): 589-599.

http://onlinelibrary.wiley.com/doi/10.1111/j.1752-1688.1972.tb05181.x/abstract

  • Lackey, Robert T., and Donald W. Holmes. 1972. Evaluation of two methods of aeration to prevent winterkill. Progressive Fish-Culturist. 34(3): 175-178.

http://www.tandfonline.com/doi/abs/10.1577/1548-8640(1972)34%5B175%3AEOTMOA%5D2.0.CO%3B2#preview

  • University of Minnesota. 2007. "Density Stratification", part of an educational website Water on the Web operated by the University of Minnesota, Duluth. Retrieved 11-March-2007.

See also

Aquatic Science Hypoxia Freshwater ecosystems Water column www.google.com

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