1. bookVolume 16 (2016): Issue 1 (March 2016)
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eISSN
2300-7575
First Published
17 Mar 2011
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4 times per year
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English
Open Access

Phosphorus in lake sediments of Poland – Results of monitoring research

Published Online: 13 Dec 2016
Volume & Issue: Volume 16 (2016) - Issue 1 (March 2016)
Page range: 15 - 26
Journal Details
License
Format
Journal
eISSN
2300-7575
First Published
17 Mar 2011
Publication timeframe
4 times per year
Languages
English

Ahlgren J., Reitzel K, De Brabandere H, Gogoll A, Rydin E., 2011, Release of organic P forms from lake sediments, Water Res. 45(2):565-72.10.1016/j.watres.2010.09.020Search in Google Scholar

Burrus D., Thomas R. L., Dominik, Vernet J. P., 1990, Seasonal delivery of the particulate forms of phosphorus to Lake Geneva from the upper Rhone river, Aquat. Sci. 52(3): 221-235.10.1007/BF00877281Search in Google Scholar

Cerco C. F., 1989, Measured and modelled effects of temperature, dissolved oxygen and nutrient concentration on sediment- water nutrient exchange, Hydrobiologia 174: 185-94.10.1007/BF00008156Search in Google Scholar

Chen S., Chen Y., Liu J., Zhang J., Wu A., 2011, Vertical variation of ohosphorus form in core sediments from Dongping Lake, China, Procedia Environ. Sci. 10: 1797-1801.10.1016/j.proenv.2011.09.281Search in Google Scholar

Christophoridis C., Fytianos K., 2006, Conditions affecting the release of phosphorus from surface lake sediments, J. Environ. Qual. 35: 1181-1192.10.2134/jeq2005.0213Search in Google Scholar

Ditrich M., Chesnyuk A., Gudimov A., McCulloch J., Quazi S., Young J., Winter J., Stainsby E., Arhonditsis G., 2013, Phosphorus retention in mesotrophic lake under transient loading conditions: Insights from a sediment phosphorus binding form study, Water Res. 47: 1433-1447.10.1016/j.watres.2012.12.006Search in Google Scholar

Elder J.F., Robertson D.M., Garrison P.J., 2000, Chemical Composition of Surficial Sediment in Geneva Lake, Wisconsin, U.S. Geological Survey Fact Sheet FS-121-00: 1-4. Retrieved from http://wi.water.usgs.gov/pubs/fs-121-00/fs-121-00.pdfSearch in Google Scholar

Fagel N., Alleman L.Y., Granina L. Hatert F., Thamo-Bozso E., Cloots R., Andre L., 2005, Vivianite formation and distribution in Lake Baikal sediments, Glob. Planet. Change 46: 315-336.10.1016/j.gloplacha.2004.09.022Search in Google Scholar

Frederichs T. von Dobeneck T., Bleil U, Dekkers M.J., 2003, Towards the identification of siderite, rhodochrosite, and vivianite in sediments by their low-temperature magnetic properties, Phys. Chem. Earth 28: 669-679.10.1016/S1474-7065(03)00121-9Search in Google Scholar

Fytianos K., Kotzakioti A., 2005, Sequential fractionation of phosphorus in lake sediments of northern Greece, Environ. Monit. Assess. 100:191-200.10.1007/s10661-005-4770-y15727307Search in Google Scholar

Gawrońska H., Łopata M., Jaworska B., 2007, The effectiveness of the phosphorus inactivation method in reducing the trophy of lakes of different morphometric and hydrological features, Limnol. Rev. 7(1): 27-34.Search in Google Scholar

Hickey C., Gibbs M., 2009, Lake sediment phosphorus release management - Decision support and risk assessment framework, New Zeal. J. Marine Freshwat. Res. 43: 819-856.10.1080/00288330909510043Search in Google Scholar

Holmer M., Storkholm P., 2001, Sulphate reduction and sulphur cycling in lake sediments: a review, Freshwat. Biol. 46: 431-451.10.1046/j.1365-2427.2001.00687.xSearch in Google Scholar

Hupfer M., Lewandowski J., 2008, Oxygen Controls the Phosphorus Release from Lake Sediments - a Long- Lasting Paradigm in Limnology, Internat. Rev. Hydrobiol. 93 (4-5): 415-432.10.1002/iroh.200711054Search in Google Scholar

Jensen H.S., Kristensen P., Jeppesen E., Skytthe A., 1992, Iron:phosphorus ratio in surface sediment as an indicator of phosphate release from aerobic sediments in shallow lakes, Hydrobiologia 235/236: 731-743.10.1007/BF00026261Search in Google Scholar

Kaiserli, A., Voutsa, D., Samara, C., 2002, Phosphorus fractionation in lake sediments - Lakes Volvi and Koronia, N. Greece, Chemosphere 46(8): 1147-1155.10.1016/S0045-6535(01)00242-9Search in Google Scholar

Katsev S., Tsandev I., L’Heureux I., Rancourt D.G., 2006, Factors controlling long-term phosphorus efflux from lake sediments: Exploratory reactive-transport modeling, Chem. Geol. 234: 127-147.10.1016/j.chemgeo.2006.05.001Search in Google Scholar

Kisand A., 2005, Distribution of sediment phosphorus fractions in hypertrophic strongly stratified Lake Verevi, Hydrobiologia 547:433-39.10.1007/s10750-005-4141-2Search in Google Scholar

Kleeberg A., 1997, Interactions between benthic phosphorus release and sulphur cycling in Lake Scharmutzelsee (Germany), Water Air Soil Poll. 99: 391-399.10.1007/978-94-011-5552-6_41Search in Google Scholar

Koski-Vahala J., Hartikainen H., 2001, Assessment of the risk of phosphorus loading due to resuspended sediment, J. Environ. Qual. 30:960-966.10.2134/jeq2001.303960xSearch in Google Scholar

Kowalczewska-Madura K., Dondajewska R., Gołdyń R., 2010, Total phosphorus and organic matter content in bottom sediments of lake under restoration measures with iron treatment, Limnol. Rev. 10(3-4): 139-145.10.2478/v10194-011-0016-2Search in Google Scholar

Lewandowski J., Schauser I., Hupfer M., 2003, Long term effects of phosphorus precipitations with alum in hypereutrophic Lake Susser See (Germany), Water Res. 37(13): 3194-3204.10.1016/S0043-1354(03)00137-4Search in Google Scholar

Lis J., Pasieczna A., 1995, Atlas geochemiczny Polski w skali 1:2500000 (Geochemical Atlas of Poland 1:2500000), PIG, Warszawa, 72 pp.Search in Google Scholar

Lopez P., Navarro E., Marce R., Ordonez J., Caputo L., Armengol J., 2006, Elemental ratios in sediments as indicators of ecological processes in Spanish reservoirs, Limnetica, 25(1-2): 499-512,10.23818/limn.25.34Search in Google Scholar

Łącka B., Starnawska E., Kuźniarski M., Chrost L., 1998, Mineralogy and geochemistry of the Lake Gościąż holocene sediments, [in] Ralska-Jasiewiczowa M., Goslar T., Madeyska T., Starkel L. (eds), Lake Gościąż, Central Poland, Szafer Institute of Botany PAN, Karkow: 124-128.Search in Google Scholar

Manny B.A., Johnson W.C., Wetzel R.G., 1994, Nutrient additions by waterfowl to lakes and reservoirs: predicting their effects on productivity and water quality, Hydrobiologia 279/280: 121-132.10.1007/BF00027847Search in Google Scholar

Marion L., Clergeau P., Brient L., Bertru G., 1994, The importance of avian-contributed nitrogen (N) and phosphorus (P) to Lake Grand-Lieu, France, Hydrobiologia 279/280: 133-147.10.1007/BF00027848Search in Google Scholar

Moore A., Reddy K.R., 1994, Role of Eh and pH on Phosphorus Geochemistry in Sediments of Lake Okeechobee, Florida, J. Environ. Qual. 23(5): 955-964.10.2134/jeq1994.00472425002300050016x34872208Search in Google Scholar

Nriagu J., Dell C., 1974, Diagenetic formation of iron phosphates in recent lake sediments, Am. Mineral. 59: 934-946.Search in Google Scholar

Pulatsu S., Kırkagac A., Iksal G., 2008, Sediment phosphorus characteristics in the Clearwater state of Lake Mogan, Turkey, Lakes Reserv. Res. Manag. 13: 197-205.10.1111/j.1440-1770.2008.00369.xSearch in Google Scholar

Reimann C., de Caritat P., 1998, Chemical elements in the environment, Springer-Verlag, Berlin-Heidelberg, 398 pp.10.1007/978-3-642-72016-1Search in Google Scholar

Reitzel K., Hansen J., Andersen F., Hansen K., Jensen H., 2005, Lake Restoration by Dosing Aluminum Relative to Mobile Phosphorus in the Sediment, Environ. Sci. Technol. 39: 4134-4140.10.1021/es048596415984792Search in Google Scholar

Ribeiro D.C., Martins G., Nogueira R., Cruz J.V., Brito A.G., 2008, Phosphorus fractionation in volcanic lake sediments (Azores- Portugal), Chemosphere 70(7): 1256-1263.10.1016/j.chemosphere.2007.07.06417868771Search in Google Scholar

Rothe M., Frederichs T., Eder M., Kleeberg A., Hupfer M., 2014, Evidence for vivianite formation and its contribution to long-term phosphorus retention in a recent lake sediment: a novel analytical approach, Biogeosciences 11: 5169-5180.10.5194/bg-11-5169-2014Search in Google Scholar

Ruttenberg K.C., Ogawa N.O., Tamburini F., Briggs R.A., Colasacco N.D., Joyce E., 2009, Improved, high-throughput approach for phosphorus speciation in natural sediments via the SEDEX sequential extraction metod, Limnol. Oceanogr. Methods 7: 319-333.10.4319/lom.2009.7.319Search in Google Scholar

Rzepecki M., 2010,The dynamics of phosphorus in lacustrine sediments: contents and fractions in relation to lake trophic state and chemical composition of bottom deposits, Pol. J. Ecol. 58(3): 409-427.Search in Google Scholar

Şahin Y., Demirak A., Keskin F., 2012, Phosphorus fractions and its potential release in the sediments of Koycegiz lake, Turkey, Lakes Reserv. Ponds 6(2):139-153.Search in Google Scholar

Salminen R., Batista M., Bidovec M., Demetriades A., De Vivo B., De Vos W., Duris M., Gilucis A., Gregorauskiene V., Halamic J., Heitzmann P., Lima A., Jordan G., Klaver G., Klein P., Lis J., Locutura J., Marsina K., Mazreku A., O’Connor P., Olsson S., Ottesen R., Petersell V., Plant J., Reeder S., Salpeteur L., Sandstrom H., Siewers U., Steenfelt A., Tarvainen T., 2005, Geochemical Atlas of Europe. Part 1. Background information, methodology and maps, Geological Survey of Finland, Espoo, 526 pp.Search in Google Scholar

Santiago, S. and R.L. Thomas., 1992, Phytoplankton utilization of phosphorus bound to suspended sediments from selected tributaries to Lake Geneva, J. Great Lakes Res. 18:372-389.10.1016/S0380-1330(92)71305-7Search in Google Scholar

Søndergaard M., Jensen J.P., Jeppesen E., 2003, Role of sediment and internal loading of phosphorus in shallow lakes, Hydrobiologia 506-509: 135-145.10.1023/B:HYDR.0000008611.12704.ddSearch in Google Scholar

Taylor K.G., Hudson-Edwards K.A., Bennett A.J., Vishnyakov V., 2008, Early diagenetic vivianite [Fe3(PO4)2 _ 8H2O] in a contaminated freshwater sediment and insights into zinc uptake: A μ-EXAFS, μ-XANES and Raman study, Appl. Geochem. 23(6): 1623-1633.10.1016/j.apgeochem.2008.01.009Search in Google Scholar

Wang C., Qian J., Guo Z., Zhao L., Li X., 2008, Vertical distributions of phosphorus fractions in sediments of three typical shallow urban lakes in P.R. China, Pol. J. Environ. Stud. 17:155-162.Search in Google Scholar

Wetzel R., 2001, Limnology, Academic Press, San Diego, 1006 pp.Search in Google Scholar

Xu D., Ding S., Li B., Bai X., Fan C., Zhang C., 2013, Speciation of organic phosphorus in a sediment profile of Lake Taihu I: Chemical forms and their transformation, J. Environ. Sci. 25(4): 637-644.10.1016/S1001-0742(12)60136-3Search in Google Scholar

Yang L., Liu E., 2011, The Human Pollution Evaluation of Phosphorus in Surface Sediments of Nansihu Lake, Procedia Environ. Sci. 10: 918-921.10.1016/j.proenv.2011.09.147Search in Google Scholar

Zhu Y., Wu F., He Z., Guo J., Qu X., Xie F., Giesy J., Liao H., Guo F., 2013, Characterization of organic phosphorus in lake sediments by sequential fractionation and enzymatic hydrolysis, Environ. Sci. Tech. 47: 7679-7687.10.1021/es305277g23731033Search in Google Scholar

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