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Dissolved Oxygen

  • Robert G. Wetzel
  • Gene E. Likens

Abstract

The measurement of dissolved oxygen is one of the most frequently used and the most important of all chemical methods available for the investigation of the aquatic environment. Dissolved oxygen provides valuable information about the biological and biochemical reactions going on in waters; it is a measure of one of the important environmental factors affecting aquatic life and of the capacity of water to receive organic matter without causing nuisance.

Keywords

Dissolve Oxygen Barometric Pressure American Public Health Association Potassium Iodide Dissolve Oxygen Content 
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. American Public Health Association et al. 1989. Standard Methods for the Examination of Water, Sewage, and Wastewater, 17th Ed. American Public Health Association, New York. 1550 pp.Google Scholar
  2. Benson, B.B. and D. Krause, Jr. 1980. The concentration and isotopic fractionation of gases dissolved in fresh water in equilibrium with the atmosphere. 1. Oxygen. Limnol. Oceanogr. 25: 662–671.CrossRefGoogle Scholar
  3. Buswell, A.M. and W.U. Gallaher. 1923. Determination of dissolved oxygen in the presence of iron salts. Ind. Eng. Chem. 15: 1186–1188.CrossRefGoogle Scholar
  4. Carlton, R.G. and R.G. Wetzel. 1987. Distribution and fates of oxygen in periphyton communities. Can. J. Bot. 65: 1031–1037.CrossRefGoogle Scholar
  5. Carlton, R.G. and R.G. Wetzel. 1988. Phosphorus flux from lake sediments: Effect of epipelic algal oxygen production. Limnol. Oceanogr. 33: 562–570.Google Scholar
  6. Ellis, J. and S. Kanamori. 1973. An evaluation of the Miller method for dissolved oxygen analysis. Limnol. Oceanogr. 18: 1002–1005.CrossRefGoogle Scholar
  7. Gnaiger, E. and H. Forstner (ed). 1983. Polarographic Oxygen Sensors: Aquatic and Physiological Applications. Springer-Verlag, New York. 370 pp.CrossRefGoogle Scholar
  8. Hutchinson, G.E. 1957. A Treatise on Limnology. I. Geography, Physics, and Chemistry. Wiley, New York. 1015 pp.Google Scholar
  9. Mortimer, C.H. 1981. The oxygen content of air-saturated fresh waters over ranges of temperature and atmospheric pressure of limnological interest. Mitt. Int. Ver. Limnol. 22, 23 pp.Google Scholar
  10. Revsbech, N.P. and B.B. Jorgensen. 1986. Microelectrodes: Their use in microbial ecology. Microbial Ecol. 9: 293–352.Google Scholar
  11. Van Landingham, J.W. 1960. A note on a stabilized starch indicator for use in iodometric and iodimetric determinations. Limnol. Oceanogr. 5: 343–344.Google Scholar
  12. Walker, K.F., W.D. Williams, and U.T. Hammer. 1970. The Miller method for oxygen determination applied to saline waters. Limnol. Oceanogr. 15: 814–815.CrossRefGoogle Scholar
  13. Welch, P.S. 1948. Limnological Methods. Blakiston, Philadelphia. 381 pp.Google Scholar
  14. Wetzel, R.G. 1983. Limnology. 2nd Ed. Saunders Coll. Philadelphia. 860 pp.Google Scholar

Copyright information

© Springer Science+Business Media New York 1991

Authors and Affiliations

  • Robert G. Wetzel
    • 1
  • Gene E. Likens
    • 2
  1. 1.Department of Biology, College of Arts and SciencesUniversity of AlabamaTuscaloosaUSA
  2. 2.Institute of Ecosystem StudiesThe New York Botanical Garden, Cary ArboretumMillbrookUSA

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