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Saline Lake Ecosystems

  • E. Vareschi
Part of the Ecological Studies book series (ECOLSTUD, volume 61)

Abstract

Most of the chapters of this Symposium have dealt with terrestrial ecosystems. However, a limnologist studying a lake ecosystem has a substantial advantage over most of his terrestrially oriented colleagues: he knows the boundary of his system. Of course the situation is somewhat complicated by in- and outflows, so that not even lakes can be regarded as absolutely closed systems. However, the problem is halved for limnologists studying saline lakes, as most sait lakes have no outflow.

Keywords

Saline Lake Soda Lake Mono Lake Lake Level Change International Biological Program 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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References

  1. Bauld J (1981) Occurrence of benthic microbial mats in saline lakes. In: Williams WD (ed) Sait lakes. Proc Int Symp Athalassic Sait Lakes. Dev Hydrobiol, vol V. Junk, The HagueGoogle Scholar
  2. Brock MA, Shiel RJ (1983) The composition of aquatic communities in saline wetlands of Western Australia. Hydrobiol 105: 77–84CrossRefGoogle Scholar
  3. Brylinsky M (1980) Estimating the productivity of lakes and reservoirs. In: Le Cren ED, Lowe-Mc-Connell RH (eds) The functioning of freshwater ecosystems. IBP No 22. Cambridge Univ Press, CambridgeGoogle Scholar
  4. Cohen Y, Krumbein WE, Shilo M (1977) Solar Lake (Sinai). 2. Distribution of photosynthetic microorganisms and primary production. Limnol Oceanogr 21: 609–620CrossRefGoogle Scholar
  5. Cooper SD, Winkler DW, Lenz PA (1984) The effect of grebe prédation on a brine shrimp population. J Animal Ecol 53: 51–64CrossRefGoogle Scholar
  6. Elton CS (1958) The ecology of invasion by animais and plants. Chapman and Hall, LondonGoogle Scholar
  7. Eugster HP, Hardie LA (1978) Saline lakes. In: Lerman A (ed) Lakes: Chemistry, geology, physics. Springer, Berlin Heidelberg New York, pp 237–289Google Scholar
  8. Galat DL, Lider EL, Vigg S, Robertson SR (1981) Limnology of a large, deep North American terminal lake, Pyramid Lake, Nevada, USA. Hydrobiologia 81: 281–318CrossRefGoogle Scholar
  9. Geddes MC, DeDekker P, Williams WD, Morton DW, Topping M (1981) On the chemistry and biota of some saline lakes in Western Australia. In: Williams WD (ed) Sait lakes. Proc Int Symp Athasslassic Sait Lakes Dev Hydrobiol, vol V. Junk, The HagueGoogle Scholar
  10. Greer DC (1977) Desertic Terminal Lakes. Utah Water Lab. Utah State Univ, LoganGoogle Scholar
  11. Hammer UT (1981) Primary productivity in saline lakes. A review. Hydrobiologia 81: 47–57CrossRefGoogle Scholar
  12. Hammer UT (ed) (1983) Saline Lakes. Proc 2nd Symp Athalassic Saline Lakes. Dev Hydrobiol, vol 16. Junk, The HagueGoogle Scholar
  13. Hammer UT, Shamess J, Haynes RC (1983) The distribution and abundance of algae in saline lakes of Saskatchewan, Canada. Hydrobiologia 105: 1–26CrossRefGoogle Scholar
  14. Hardie LA, Eugster HP (1970) The evolution of closed-basin brines. Minerai Soc Am Spec Publ 3: 273–290Google Scholar
  15. Hutchinson GE (1959) Homage to Santa Rosalia, or why are there so many kinds of animais? Am Nat 93: 145–159CrossRefGoogle Scholar
  16. Hutchinson GE, Lôffler H (1956) The thermal classification of lakes. Proc Natl Acad Sci 42: 84–86PubMedCrossRefGoogle Scholar
  17. Jellison R, Melack JM (in press) Photosynthetic activity of phytoplankton and its relation to environmental factors in hypersaline Mono Lake, California. In: Melack JM (ed) Saline lakes. Proc 3rd Symp. Lakes. Dev Hydrobiol. Junk, The HagueGoogle Scholar
  18. Kilham P (1981) Pélagie bacteria: extreme abundances in Africa saline lakes. Naturwissenschaften 67: 380–381CrossRefGoogle Scholar
  19. Lampert W (1978) Climatic conditions and planktonic interactions as factors controlling the regular succession of spring algal bloom and extremely clear water in Lake Constance. Verh Int Ver Limnol 20: 969–974Google Scholar
  20. LeBarbera MC, Kilham P (1974) The chemical ecology of copepode distribution in the lakes of East and Central Africa. Limnol Oceanogr 19: 459–465CrossRefGoogle Scholar
  21. Lewin R (1983) Santa Rosalia was a goat. Science 221: 636–639PubMedCrossRefGoogle Scholar
  22. Lewis WM, Jr (1983) A revised classification of lakes based on mixing. Can J Fish Aquat Sci 40: 1779–1787CrossRefGoogle Scholar
  23. MacArthur RH (1955) Fluctuations of animal populations, and a measure of community stability. Ecology 36: 533–536CrossRefGoogle Scholar
  24. Maclntyre S (1975) Ortho-phosphate concentrations in Kenyan lakes. Abstr Am Soc Limnol Oceanogr 39th Annu MeetGoogle Scholar
  25. Maclntyre S, Melack JM (1982) Meromixis in an equatorial African soda lake. Limnol Oceanogr 27: 595–609CrossRefGoogle Scholar
  26. May RM (1972) Stability and complexity in model ecosystems. Princeton Univ Press, PrincetonGoogle Scholar
  27. Melack JM (1979) Phytosynthesis and growth of Spirulina platensis (Cyanophyta) in an equatorial lake (L. Simbi, Kenya). Limnol Oceanogr 24: 753–760CrossRefGoogle Scholar
  28. Melack JM (1981) Photosynthetic activity of phytoplankton in tropical African soda lakes. Hydro- biologia 81: 71–85Google Scholar
  29. Melack JM Saline lakes. Proc 3rd Symp on Athalassic Saline Lakes. Dev Hydrobiol(in press)Google Scholar
  30. Orians GH (1975) Diversity, stability and maturity in natural ecosystems. In: Dobben WH van, Lowe-McConnell RH (eds) Unifying concepts in ecology. Junk, The HagueGoogle Scholar
  31. Parker RD, Lawrence JR (1983) A comparison of phototrophic bacteria in two adjacent saline meromictic lakes. Hydrobiologia 105: 53–61CrossRefGoogle Scholar
  32. Paterson CG, Walker KF (1974) Seasonal dynamics and productivity of Tanytarsus barbitarsis free- man (Diptera, Chironomidae) in the benthos of a shadow saline lake. Aust J Mar Freshwater Res 25: 151–165CrossRefGoogle Scholar
  33. Pimm SL (1984) The complexity and stability of ecosystems. Nature (London) 307: 321–326CrossRefGoogle Scholar
  34. Post FJ (1981) Microbiology of the Great Sait Lake North America. In: Williams WD (ed) Sait Lakes. Proc Int Symp Athallassic Sait Lakes. Dev Hydrobiol, vol V. Junk, The HagueGoogle Scholar
  35. Remmert H (1985) And now? Ecosystem research! In: Cooley JH, Golley FB (eds) Trends in ecological research for the 1980s, pp 179–191Google Scholar
  36. Talling JF, Talling IB (1965) The chemical composition of African lake water. Int Rev Ges Hydrobiol 50: 421–463CrossRefGoogle Scholar
  37. Talling JF, Wood RB, Prosser MV, Baxter RM (1973) The upper limit of photosynthetic productivity: evidence from Ethiopian soda lakes. Freshwater Biol 3: 53–76CrossRefGoogle Scholar
  38. Timms BV (1981) Animal communities in three Victorian lakes of differing salinity. Hydrobiologia 81: 181–193CrossRefGoogle Scholar
  39. Vareschi E (1978) The ecology of L. Nakuru (Kenya). I. Abundance and feeding of the Lesser Flamingo. Oecologia (Berlin) 32: 11–35CrossRefGoogle Scholar
  40. Vareschi E (1979) The ecology of L. Nakuru (Kenya). II. Biomass and spatial distribution of fish (Tilapia grahami Boulenger = Sarotherodon alcalicum grahami Boulenger) Oecologia (Berlin) 37: 321–335Google Scholar
  41. Vareschi E (1982) The ecology of L. Nakuru (Kenya). III. Abiotic factors and primary production. Oecologia (Berlin) 55: 81–101CrossRefGoogle Scholar
  42. Vareschi E, Jacobs J (1984) The ecology of L. Nakuru (Kenya). V. Production and consumption of consumer organisms. Oecologia (Berlin) 61: 83–98Google Scholar
  43. Vareschi E, Jacobs J (1985) The ecology of L. Nakuru (Kenya). VI. Synopsis of production and energy flow. Oecologia (Berlin) 65: 412–424Google Scholar
  44. Vareschi E, Vareschi A (1984) The ecology of L. Nakuru (Kenya). IV. Biomass and distribution of consumer organisms. Oecologia (Berlin) 61: 70–82CrossRefGoogle Scholar
  45. Walker KF (1973) Studies on a saline lake ecosystem. Aust J Mar Freshwater Res 24: 21–71CrossRefGoogle Scholar
  46. Webber MI (1974) Food web linkage, complexity and stability in a model ecosystem. In: UsherMB, Williams MW (eds) Ecological stability. Chapman & Hall, London, pp 165–178Google Scholar
  47. Westlake DF (1980) Primary production. In: Le Cren ED, Lowe-McConnell RH (eds) The functioning of freshwater ecosystems. IBP 22. Cambridge Univ Press, CambridgeGoogle Scholar
  48. Wetzel RG (1964) A comparative study of the primary productivity of higher aquatic plants, periphyton, and phytoplankton in a large, shallow lake. Int Rev Ges Hydrobiol 49: 1–64CrossRefGoogle Scholar
  49. Wetzel RG (1983) Limnology. Saunders, PhiladelphiaGoogle Scholar
  50. Williams WD (1964) A contribution to lake typology in Victoria, Australia. Verh Int Ver Limnol 15: 158–163Google Scholar
  51. Williams WD (1972) The uniqueness of sait lake ecosystems. In: Kajak Z, Hillbricht-Ilkowska A (eds) Productivity problems of freshwaters. Polish Scientific Publishers, Warszawa KrakowGoogle Scholar
  52. Williams WD (ed) (1981a) Sait Lakes. Proc Int Symp Athalassic Sait Lakes. Dev Hydrobiol, vol V. Junk, The HagueGoogle Scholar
  53. Williams WD (1981b) Inland sait lakes: An introduction. Hydrobiologia 81: 1–14CrossRefGoogle Scholar
  54. Wright SW, Burton HR (1981) The biology of Antarctic saline lakes. Hydrobiologia 82: 319–338CrossRefGoogle Scholar

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© Springer-Verlag Berlin Heidelberg 1987

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  • E. Vareschi

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