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Spatial distribution of manganese and iron in sediments of the Czorsztyn Reservoir

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Concentrations of iron and manganese were investigated in 26 sediment samples from the Czorsztyn Reservoir (South Poland). Spatial distribution of these metals in the reservoir is generally linked to the grain size distribution of sediments. The presence of manganese and iron in sediments is mainly related to the rock weathering and soil erosion processes. Furthermore, enrichment of waters in manganese and iron follows as a result of the Dunajec River flowing through the Orawsko-Nowotarska Valley, where peat bogs are present. However, anthropogenic influence on manganese and iron concentration levels in sediments cannot be excluded in this area.
Rocznik
Strony
179--188
Opis fizyczny
Bibliogr. 21 poz., tab., rys.
Twórcy
autor
  • Institute of Water Supply and Environmental Protection, Cracow University of Technology, ul. Warszawska 24, 31-155 Kraków, Poland
autor
  • Institute of Water Supply and Environmental Protection, Cracow University of Technology, ul. Warszawska 24, 31-155 Kraków, Poland
  • Institute of Nature Conservation, Polish Academy of Sciences, al. Mickiewicza 33, 31-120 Kraków, Poland
  • Institute of Water Supply and Environmental Protection, Cracow University of Technology, ul. Warszawska 24, 31-155 Kraków, Poland
Bibliografia
  • [1] SZAREK-GWIAZDA E., Factors influencing the concentrations of heavy metals in the Raba River and selected Carpathian dam reservoirs, Studia Naturae, 60, PAN, Cracow 2013 (in Polish).
  • [2] SZAREK-GWIAZDA E., SADOWSKA I., Distribution of grain size and organic matter content in sediments of submontane dam reservoir, Environ. Prot. Eng., 2010, 36 (1), 113.
  • [3] KWAPULIŃSKI J., WIECHUŁA D., Migration of lead and cadmium in Goczałkowice dam reservoir (southern Poland), Acta Hydrobiol., 1992, 34, 1–2, 43.
  • [4] SKORBIŁOWICZ M., SKORBIŁOWICZ E., Assessment of heavy metal content in bottom sediments of river Supraśl and its tributaries, Environ. Prot. Eng., 2009, 35 (3), 3, 279.
  • [5] ZERBE J., SOBCZYŃSKI T., ELBANOWSKA H., SIEPAK J., Speciation of heavy metals in bottom sediments of lakes, Pol. J. Environ. Stud., 1999, 8 (5), 331.
  • [6] SZALIŃSKA E., DOMINIK J., VIGNATI D.A.L., BOBROWSKI A., BAS B., Seasonal transport pattern of chromium (III and VI) in a stream receiving wastewater from tanneries, Appl. Geochem., 2010, 25 (1), 116.
  • [7] LOIZEU J.L., ARBOUILLE D., SANTIAGO S., VERNET J.P., Evaluation of a wide range laser diffraction grain size analyser for use with sediments, Sediment., 1994, 41, 353.
  • [8] PERSAUD D., JAAGUMAGI R., HAYTON A., Guidelines for the Protection and Management of Aquatic Sediment Quality in Ontario, Ontario Ministry of the Environment, Toronto, 1992.
  • [9] TUREKIAN K., WADEPOH K., Distribution of the elements in some major units of the Earth’s crust, Geol. Soc. Am. Bul., 1961, 72, 175.
  • [10] SZALIŃSKA E., DOMINIK J., BOBROWSKI A., BAS B., Fate of tannery chromium contamination in a stream. Temporal and spatial evolution of chromium(III) and chromium (VI), J. Phys. IV France, 2003, 107, 1275.
  • [11] LIS J., PASIECZNA A., Geochemical Atlas of Poland 1:2 500 000, Państwowy Instytut Geologiczny, Warszawa 1995 (in Polish).
  • [12] MÜLLER G., Index of geoaccumulation in the sediments of the Rhine River, Geol. J., 1969, 2, 108.
  • [13] STOFFERS P., GLASBY G.P., WILSON C.J., DAVIS K.R., WATTER P., Heavy metal pollution in Wellington Harbour, New Zeal. J. Mar. Fresh., 1986, 20, 495.
  • [14] KORFALI S.I., DAVIES B.E., Speciation of heavy metals in sediment and water in a river underlain by lime-stone: role of carbonate species for purification capacity of rivers, Adv. Environ. Res., 2004, 8, 599.
  • [15] KWAPULIŃSKI J., SZILMAN E., WIECHUŁA D., DERYŁO A., The occurrence of manganese in Goczałkowice dam reservoir, Acta Hydrobiol., 1992, 34 (1–2), 55.
  • [16] LOSKA K., WIECHULA D., PELCZAR J., KWAPULIŃSKI J., Occurrence of heavy metals in the waters of a heated reservoir (the Rybnik Reservoir, southern Poland), Acta Hydrobiol., 1994, 36, 267.
  • [17] GIERSZEWSKI P., SZMANDA J.B., LUC M., Distribution of bottom deposits and accumulation dynamics in the Włoclawek Reservoir (central Poland), WSEAS Trans. Environ. Dev., 2006, 5, (2), 543.
  • [18] SPOSITO G., SKIPPER N.T., SUTTON R., PARK S., SOPER A.K., GREATHOUSE J.A., Surface geochemistry of clay minerals, Proc. Nat. Acad. Sci. USA, 1999, 96, 3358.
  • [19] ÇEVIK F., GÖKSU M.Z.L., DERICI O.B., FINDIK Ö., An assessment of metal pollution in surface sediments of Seyhan dam by using enrichment factor, geoaccumulation index and statistical analyses, Environ. Monit. Assess., 2009, 152, 309.
  • [20] SZAREK-GWIAZDA E., CZAPLICKA-KOTAS A., SZALIŃSKA E., Background concentrations of nickel in the sediments of the Carpathian dam reservoirs (southern Poland), Clean – Soil, Air, Water, 2011, 39, (4), 368.
  • [21] MUNK L., FAURE G., Effects of pH fluctuations on potentially toxic metals in the water and sediment of the Villon Reservoir, Summit County, Colorado, Appl. Geochem., 2004, 19, 1065.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-2eed63ac-5d9d-45dc-afa5-ffc620e66c6b
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