Heavy metals in fluvial sediments of the Odra River flood plains - introductory research

• Autorzy: Ibragimow A. , Glosinska G. , Siepak M. , Walna B.
• Języki publikacji: EN

Abstrakty

EN

Słowa kluczowe

EN

heavy metal; fluvial sediment; Odra River; flood plain; single extraction; metal concentration; atomic absorption spectrometry method

• Wydawca: -
• Czasopismo: Quaestiones Geographicae
• Rocznik: 2010
• Tom: 29
• Numer: 1
• Opis fizyczny: p.37-47,fig.,ref.

Twórcy

autor

Ibragimow A.

• Adam Mickiewicz University, Collegium Polonicum Słubice, Kosciuszki 1, 69-100 Słubice, Poland

autor

Glosinska G.

autor

Siepak M.

autor

Walna B.

Bibliografia

• Adamiec E. & Helios-Rybicka E., 2002. Distribution of pollutants in the Odra River system. Assessment of total and mobile heavy metals content in the suspended matter and sediments of the Odra River system and recommendations for river chemical monitoring. Polish Journal of Environmental Studies 11: 675-688.
• Aslibekian O. & Moles R., 2003. Environmental risk assessment of metals contaminated soils at Silvermines abandoned mine site, CoTipperary, Ireland. Environmental Geochemistry and Health 25: 247-266. DOI: 10.1023/A: 1023251102402
• Bleeker E.A.J. & Van Gestel C.A.M., 2007. Effects of spatial and temporal variation in metal availability on earthworms in floodplain soils of the river Dommel, The Netherlands. Environmental Pollution 148: 824-832. DOI: 10.1016/j.envpol.2007.01.034
• Bojakowska I. & Sokołowska G., 1998. Geochemical purity classes of bottom sediments (in Polish). Przegląd Geologiczny 46: 49-55.
• Boszke L., Sobczyński T., Głosińska G., Kowalski A. & Siepak J., 2004. Distribution of mercury and other heavy metals in bottom sediments of the Middle Odra River (Germany/Poland). Polish Journal of Environmental Studies 13: 595-502.
• Dąbkowska-Naskręt H., Kobierski M. & Różański S., 2000. Trace metals distribution and mobility in alluwial soils of the Wisła River Valley, Poland. Mengen Spurenelement. 20, 152-157.
• Gąsior J. & Paśko J., 2007. Effect of floods on the contents of soluble element forms against a background of soil differentiation (in Polish). Zesz. Problem. Post. Nauk Roln. 520: 39-46.
• Głosińska G., Sobczyński T., Boszke L., Bierła K. & Siepak J., 2005. Fractionation of some heavy metals in bottom sediments from the middle odra River. Polish Journal of Environmental Studies 14: 305-317.
• Helios-Rybicka E.T., Sikora W., Wójcik R., Wardas M., Strzebońska M., Adamiec E. & Łagaj Ł., 2000. Estimation of pollution by heavy metals of bottom sediments in the Upper and Middle Odra river (in Polish). Gospodarka Wodna 8: 300-304.
• Hudson-Edwards K.A., Shell C. & Macklin M.G., 1999. Mineralogy and geochemistry of alluvium contaminated by metal mining in the Rio Tinto area, southwest Spain. Applied Geochemistry 14: 1015-1030. DOI: 10.1016/ S0883-2927(99)00008-6
• Hulanicki A., 1998. Speciation and speciation analysis (in Polish). In: A. Kabata-Pendias & B. Szteke (eds.), Quality problems in trace analysis in environmental studies. Wydawnictwo Edukacyjne, Warszawa.
• Kabata-Pendias A. & Pendias H., 1999. Biogeochemistry of trace elements (in Polish). Wydawnictwo Naukowe PWN, Warszawa.
• Karczewska A., 2002. Heavy metals in soils polluted with emissions from copper works (in Polish). Zeszyty Naukowe Akademii Rolniczej, Wrocław.
• Karczewska A. & Kabała C., 2008. Methodology of soil and plants laboratory analyses, 4th edition (in Polish). Wrocław.
• Leece S.A. & Pavlowsky R.T., 1997. Storage of mining related zinc in floodplain sediments, Blue River, Wisconsin. Physical Geography 18: 424 - 439.
• Lewandowski A. & Przewłócki J., 1995. Engineering aspects of pollution in view of case studies carried out in Poland. In: W. Salomons, U. Förstner & P. Mader (eds.), Heavy metals, problems and solutions. Springer, Berlin.
• Lopes-Sanchez J.F., Sahuquilo A., Rauret G., Lachica M., Gomez A., Ure A.M., Muntau H., & Quevauviller Ph., 2002. Extraction procedures for soil analysis. In: Ph. Quevauviller (ed.), Methodologies for soil and sediment fractionation studies. The Royal Society of Chemistry, Brussel.
• Miller J.R., 1997. The role of fluvial geomorphic processes in the dispersal of heavy metals from mine sites. Journal of Geochemical Exploration 58: 101-118. Minister of the Environment Regulation of 9 September 2002 on soil and earth quality standards. Dziennik Ustaw 02. 165.1359).
• Owens P.N., Walling D.E. & Leeks G.J.L., 1999. Deposition and storage of fine-grained sediment within the main channel system of the river Tweed, Scotland. Earth Surface Processes and Landforms 24: 1061-1076. DOI: 10.1002/ (SICI)1096-9837(199911)24:12
• Peijnenburg W., Zablotskaja M. & Vijver M.G., 2007. Monitoring metals in terrestrial environments within a bioavailability framework and focus on soil extraction. Ecotox. Environmental Safety 67: 163-179.
• PN-ISO 11466, 2002. Soil quality. Extraction of trace elements soluble in aqua regia (in Polish). Quevauviller Ph., 2002. SM&T Activities in Support of standardization of operationally-defined extraction procedures for soil and sediment analysis. In: Ph. Quevauviller (ed.), Methodologies for soil and sediment fractionation studies. The Royal Society of Chemistry, Brussel. Schroeder T., J., Hiemstra T., Vink J.,P.M. & Van der Zee S.E.A.T.M., 2005. Modeling of the solid-solution partitioning of heavy metals and arsenic in embanked flood plain soils of the Rivers Rhine and Meuse. Environmental Science and Technology 39: 7176-7184. DOI: 10.1021/ es048154s
• Schipper A. M., Wijnhoven S. Leuven R.S.E.W., Ragas A.M.J. & Hendriks A.J., 2008. Spatial distribution and internal concentrations of terrestrial arthropods in a moderately contaminated lowland floodplain along the Rhine River. Environmental Pollution 151: 17-26. DOI: 10.1016/j.envpol.2007.03.007
• Taylor M., 1996. The variability of heavy metals in flood- plain sediments: a case study from Mid - Wales. Catena 28: 71-87. DOI: 10.1016/S0341-8162(96)00026-4
• Tessier A., Campbell P.G. & Bisson M., 1979. Sequential extraction procedure for the speciation of particulate trace metals. Analytical Chemistry 51: 844-851.
• Walling D.E. & Owens P.N., 2003 The role of overbank floodplain sedimentation in catchment contaminant budgets. Hydrobiologia 494: 83-91. DOI: 10.1023/A: 1025489526364
• Vandecasteele B., Samyn J., Quataert P., Muys B. & Tack F.M.G., 2004. Earthworm biomass as additional information for risk assessment of heavy metal biomagnification: a case study for dredged sediment-derived soils and polluted floodplain soils. Environmental Pollution 129: 363-375. DOI: 10.1016/j.envpol.2003.12.007
• Van Gestel C.A.M., 2008. Physico-chemical and biological parameters determine metal bioavaiability in soils. Science of the Total Environment 406: 385-395. DOI: 10.1016/j.scitotenv.2008.05.050
• Zhao Y., Marriott S., Rogers J. & Iwugo K., 1999. A preliminary study of heavy metal distribution on the flood plain of the River Severn, UK, by a single flood event. Science of the Total Environment 243/244: 219-231. DOI: 10.1016/S0048-9697(99)00386-1