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Göl ve Göletlerin Restorasyonunda Sedimentteki Fosfor İnaktivasyonunun Rolü

The Role of Sediment Phosphorus Inactivation of Lakes and Ponds Restoration

Journal Name:

  • Ankara Üniversitesi Çevrebilimleri Dergisi

Publication Year:

  • 2011

Key Words:

Keywords (Original Language):

Author NameUniversity of AuthorFaculty of Author
Abstract (2. Language): 
The input of excessive amounts of phosphorus in aquatic systems brings with it the problem of eutrophication. Sediments play a critical role as a phosphorus trap or phosphorus source in many aquatic systems. Lake sediment phosphorus inactivation method as a lake restoration technique is used to reduce the phosphorus content of phosphorus in the water column and to remove excessive phosphorus from sediment by precipitation on behalf of the reduction of internal phosphorus loading. In this study, the use of application methods and the probable consequences of phosphorus inactivation methods for controlling the content of phosphorus in aquatic systems with different characteristics are precised.
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Abstract (Original Language): 
Sucul sistemlere olan aşırı miktarda fosfor girdisi ötrofikasyon sorununu beraberinde getirmektedir. Sedimentler akvatik sistemlerde fosfor kaynağı veya fosfor tuzağı olarak rol almaktadır. Göl ve göletlerin fosfor içeriğini azaltmak için su sütunundan fosforun çökeltme ile uzaklaştırılması ve göl sedimentinden su sütununa olan iç fosfor yüklemesinin indirgenmesi adına fosfor inaktivasyon yöntemleri bir göl restorasyon tekniği olarak uygulanmaktadır. Bu çalışma kapsamında, akvatik sistemde fosfor içeriğini kontrol amaçlı uygulanan fosfor inaktivasyon yöntemlerinin farklı özellikteki sucul sistemlerde uygulanış şekilleri ve sonuçları özetlenmiştir.
FULL TEXT (PDF): 
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  • 1
89-97
  • Turkish

REFERENCES

References: 

Anonymous 2006. Bay Lake Sediment Characterization and Phosphorus Inactivation Study. Environmental Research and
Design Inc. Florida.
Babin, J., Prepas, E.F., Murphy, T.P. and Hamilton, H.R., 1989. A Test of the Effects of Lime on Algal Biomass and Total
Phosphorus Concentrations in Edmonton Stormwater Retention Lakes. Lake Reservoir Management, 5: 129-135.
Barko, J.W., James, W.F., Taylor, W.D. and McFarland, D.G. 1990. Effects of Alum Treatment on Phosphorus and
Phytoplankton Dynamics in Eau Galle Reservoir: A Synopsis. Lake Reservoir Management, 6:1-8.
Boers, P.C.M. 1991. The Influence of Phosphorus on Phosphate Release from Lake Sediments. Water Resourses, 25: 309-
311.
Cooke, G.D., Heath, R.T., Kennedy, R.H. and McComas, M.R. 1993 b. Change in Lake Trophic State and Internal
Phosphorus Release After Aluminium Sulfate Application. Water Resources Bulletin, 18: 699-705.
Cooke, G.D., Welch, E.B., Peterson, S.A. and Newroth, P.R. 1993 a. Restoration and Management of Lakes and Reservoirs.
Second edition.161-209, Florida.
Foy, R.H. 1985. Phosphorus Inactivation in a Eutrophic Lake by the Direct Addition of Ferric Aluminium Sulphate: Impact
on Iron and Phosphorus. Freshwater Biology, 15: 613-629.
Mehner, T., Diekmann, M., Gonsiorczyk, T., Kasprzak, P., Koshel, R., Krienitz, L. Rumpf, M., Schulz, M. And Wauer, G.
2008. Rapid Recovery from Eutrophication of a Stratified Lake by Disruption of Internal Nutrient Load.
Ecosystems, 11: 1142-1156.
Mesner, N. and Narf, R. 1987. Alum Injection into Sediments for Phosphorus Inactivation and Macrophyte Control. Lake
Reserv. Manage., 3:256-265.
Murphy, T.P., Prepas, E.E., Lim, J.T., Crosby, J.M. and Walty, D.T. 1989. Evaluation of Calcium Carbonate and Calcium
Hydroxide Treatments of Prairie Water Dugouts. Lake Reserv. Manage., 6:101-108.
Reitzel, K., Hansen, J., Andersen, F., Hansen, K.S. and Jensen, H.S. 2005. Lake Restoration by Dosing Aluminium Relative
to Mobile Phosphorus in the Sediment. Environmental Science and Technology, 39 (11): 4134-4140.
Shaw, J.F.H. and Prepas, E.E. 1990. Exchange of Phosphorus from Shallow Sediments at Nine Alberta Lakes. J. Environ.
Qual., 19: 249-256.
Smeltzer, E. 1990. A Succesful Alum/Aluminate Treatment of Lake Morey, Vermont. Lake Reserv. Manage., 6: 9-19.
Steinman, A., Rediske, R. And Reddy, K.R. 2004. The Reduction of Internal Phosphorus Loading Using Alum in Spring
Lake, Michigan. Journal of Environmental Quality, 33: 2040-2048.
Wetzel, R.G. 1990. Land-Water Interfaces: Metabolic and Limnological Regulators. Limnol., 24: 6-24.

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