Spatial distribution and risk assessment of heavy metals in bottom sediments of two small dam reservoirs (south-east Poland)

Journal title

Archives of Environmental Protection




vol. 41


No 4



sediment ; dam reservoir ; heavy metals ; spatial distribution ; sediment quality ; sediment dredging

Divisions of PAS

Nauki Techniczne


Polish Academy of Sciences


2015[2015.01.01 AD - 2015.12.31 AD]


Artykuły / Articles


DOI: 10.1515/aep-2015-0041 ; ISSN 2083-4772 ; eISSN 2083-4810


Archives of Environmental Protection; 2015; vol. 41; No 4


Ibragimow (2013), Physico - chemical parameters determining the variability of actually and potentially available fractions of heavy metals in fluvial sediments of the middle Odra river of Environmental Protection, Archives, 39, 3. ; Loska (2003), Application of principal component analysis for the estimation of source of heavy metal contamination in surface sediments from the Rybnik reservoir, Chemosphere, 51, 723, ; Zhang (2013), Historical trends in the anthropogenic heavy metal levels in the tidalflat sediments of Lianyungang China of, Journal Environmental Sciences, 25, 1458, ; Ciszewski (2012), Long - term dispersal of heavy metals in a catchment affected by historic lead and zinc mining of Soils and Sediments, Journal, 12, 1445. ; Sarà (2009), Variation of suspended and sedimentary organic matter with depth in shallow coastal waters, Wetlands, 29, 1234, ; Leńczowska (1996), The Łączany Weir as a geochemical barrier in the migration of heavy metals, Applied Geochemistry, 11, 223, ; Karbassi (2011), Association of trace metals with various sedimentary phases in dam reservoirs of and Technology, International Journal Environmental Science, 8, 841, ; Misztal (1980), Some chemical and physical properties submerged soils of the Zemborzyce dam reservoir, Soil Science Annual, 3, 253. ; Ligęza (2002), Differentiation of pH and texture in bottom sediments of Zemborzycki dam reservoir in Polish, Acta Agrophysica, 70, 235. ; Li (2012), Contamination by persistent toxic substances in surface sediment of urban rivers in Chaohu City China of, Journal Environmental Sciences, 24, 1934, ; Manasreh (2010), Heavy metal and anionic contamination in the water and sediments in Al - Mujib reservoir central Jordan Environmental Earth, Sciences, 60, 613. ; Kajak (1965), Tubular bottom sampler Ekologia Polska Ser in Polish, B, 11, 159. ; Smal (2013), Nitrogen and phosphorus in bottom sediments of two small dam reservoirs of, Polish Journal Environmental Studies, 32, 1479. ; Demirak (2006), Heavy metals in water sediment and tissues of Leuciscus cephalus from a stream in southwestern Turkey, Chemosphere, 63, 1451, ; Dang (2006), Metal speciation in coastal marine from Singapore using a modified BCR sequential extraction procedure, Applied Geochemistry, 21, 1335, ; MacDonald (2000), Development and Evaluation of consensus - based sediment quality guidelines for freshwater ecosystems of Environmental Contamination and Toxicology, Archives, 39, 20. ; Smith (1996), A preliminary evaluation of sediment quality assessment values for freshwater ecosystems of Great, Journal Lakes Research, 22, 624, ; Jabłońska (2014), Development and validation of HPLC - ICP - MS method for the determination inorganic Cr As and Sb speciation forms and its application for Pławniowice reservoir ( Poland ) water and bottom sediments variability study, Talanta, 120, 475, ; Wang (2015), Modeling the source contribution of heavy metals in surficial sediment and analysis of their historical changes in the vertical sediments of a drinking water reservoir of, Journal Hydrology, 520. ; Kostecki (2007), Spatial arrangement of heavy metals in the dam - reservoir sediments in the conditions of anthropomixion of Environmental Protection, Archives, 3, 67. ; Wang (2012), Spatial variation and contamination assessment of heavy metals in sediments in the Manwan Reservoir Lancang River and Environmental Safety, Ecotoxicology, 82, 32, ; Rosińska (2011), PCBs and heavy metals in water and bottom sediments of the Kozłowa Góra dam reservoir of Environmental Protection, Archives, 37, 61. ; Campbell (1988), Contrasting behaviour of dissolved and particulate nickel and zinc in a polluted estuary of the Total Environment, Science, 71, 141. ; Huang (2012), Distribution of heavy metals in water column suspended particulate matters and the sediment under hydrodynamic conditions using an annular flume of, Journal Environmental Sciences, 24, 2051, ; Hu (2013), Spatial distribution and ecotoxicological risk assessment of heavy metals in surface sediments of the southern Bohai Bay China and, Environmental Science Pollution Research, 20, 4099, ; Arnason (2003), A year record of Cd Hg Pb and U deposition in sediments of Patroon Reservoir Albany County NY USA, Environmental Pollution, 123, 383, ; Jabłońska (2014), Impact of mining dump on the accumulation and mobility of metals in the Bytomka river sediments of Environmental Protection, Archives, 40, 3. ; Aleksander (2009), Contaminated sediments as a potential source of Zn Pb and Cd for a river system in the historical metalliferous ore mining and smelting industry area of South Poland of Soils and Sediments, Journal, 9, 13. ; Findik (2012), Metal concentrations in surface sediments of Beyler reservoir ( Turkey ) of Environmental Contamination and Toxicology, Bulletin, 88, 193.

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