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K. Taylor, P. Owens (2009)
Sediments in urban river basins: a review of sediment–contaminant dynamics in an environmental system conditioned by human activitiesJournal of Soils and Sediments, 9
Paul Radomski, Tom Heinrich, T. Jones, P. Rivers, P. Talmage (2006)
Estimates of Tackle Loss for Five Minnesota Walleye FisheriesNorth American Journal of Fisheries Management, 26
(2014)
Pierwiastki śladowe w osadach jezior zlewni Drawy
C. Cooke, M. Abbott, A. Wolfe, John Kittleson (2007)
A millennium of metallurgy recorded by lake sediments from Morococha, Peruvian Andes.Environmental science & technology, 41 10
(2012)
Warunki korzystania z wód zlewni rzeki Brdy (SCWP: DW0601, DW0602, DW0603, DW0604, DW0605, DW0607, DW0609) – Etap 1 Dynamiczny bilans ilościowy zasobów wodnych
FU (2013)
Risk and toxicity assessments of heavy metals in sediments and fishes from the Yangtze River ChinaChemosphere
I. Pulford, A. Mackenzie, S. Donatello, L. Hastings (2009)
Source term characterisation using concentration trends and geochemical associations of Pb and Zn in river sediments in the vicinity of a disused mine site: implications for contaminant metal dispersion processes.Environmental pollution, 157 5
Qing Cui, N. Brandt, R. Sinha, M. Malmström (2010)
Copper content in lake sediments as a tracer of urban emissions: evaluation through a source-transport-storage model.The Science of the total environment, 408 13
(2009)
Geochemical characteristics of the Biebrza river catchment lake sediments
HOBOT (2012)
korzystania z wód zlewni rzeki bilans ilościowy zasobów wodnych rzgw gda pl cms fck uploaded ZGPW rozporzadzenia Bilansowanie zasobów Brda pdf
(2004)
Heavy metals in recent lake sediments as an indicator of 20th century pollution: Case study on lake Jasień
D. Macdonald, C. Ingersoll, T. Berger (2000)
Development and Evaluation of Consensus-Based Sediment Quality Guidelines for Freshwater EcosystemsArchives of Environmental Contamination and Toxicology, 39
W. Wildi, J. Dominik, J. Loizeau, R. Thomas, P. Favarger, L. Haller, A. Perroud, Christophe Peytremann (2004)
River, reservoir and lake sediment contamination by heavy metals downstream from urban areas of SwitzerlandLakes and Reservoirs: Research and Management, 9
BOJAKOWSKA (2014)
śladowe osadach jezior zlewni i Geologia Środowiska Uprzemysłowionych red PA SA
Fei Zhang, Zhangdong Jin, Fuchun Li, Jimin Yu, C. You, Ling Zhou (2013)
The dominance of loess weathering on water and sediment chemistry within the Daihai Lake catchment, northeastern Chinese Loess PlateauApplied Geochemistry, 35
WILDI (2004)
reservoir and lake sediment contamination by heavy metals downstream from urban areas of Switzerland Reservoirs ResearchManagement, 9
J. Sorour, Dalal Harbey, Princess Nora, Bint Abdul (2012)
Histological and Ultrastructural Changes in Gills of Tilapia Fish from Wadi Hanifah Stream, Riyadh, Saudi Arabia
Jie Fu, Xin Hu, Xian-cong Tao, Hongxia Yu, Xiaowei Zhang (2013)
Risk and toxicity assessments of heavy metals in sediments and fishes from the Yangtze River and Taihu Lake, China.Chemosphere, 93 9
LIS (1995)
geochemicznych Instytut
U. Förstner (1989)
Contaminated Sediments: Lectures on Environmental Aspects of Particle-Associated Chemicals in Aquatic Systems
SOROUR (2012)
Histological and ultrastructural changes in gills of tilapia fish from Wadi Hanifah Stream SaudiAm Sci, 8
(1995)
Atlas geochemicznych Polski 1: 2500000
Rong Xiao, J. Bai, Laibing Huang, Honggang Zhang, B. Cui, Xinhui Liu (2013)
Distribution and pollution, toxicity and risk assessment of heavy metals in sediments from urban and rural rivers of the Pearl River delta in southern ChinaEcotoxicology, 22
FÖRSTNER (1989)
Contaminated sediments Lectures on environmental aspects of particle - associated chemicals in aquatic systems in Springer VerlagLecture Notes Earth Sciences, 21
KONDRACKI (2002)
regionalna
(2009)
Geochemical characteristics of the Biebrza river catchment lake sediments. In: Problems of water protection in the Bug and Narew Rivers catchments
LEKSANDER (2007)
Distribution of Cd and Pb in the lake sediments cores from the Hańczańska BayReview, 7
(2014)
Pierwiastki śladowe w osadach jezior zlewni Drawy . Geochemia i Geologia Środowiska Terenów Uprzemysłowionych . ( red . Marek Pozzi )
J. Vink (2009)
The origin of speciation: trace metal kinetics over natural water/sediment interfaces and the consequences for bioaccumulation.Environmental pollution, 157 2
(2007)
Distribution of Cd and Pb in the lake sediments cores from the Hańczańska Bay (Wigry Lake, NE Poland)
ROCHER (2004)
Hydrocarbons and metals in atmospheric deposition and roof runoff in Central Paris Water Air andSoil Pollution
David Pompeani, M. Abbott, B. Steinman, D. Bain (2013)
Lake sediments record prehistoric lead pollution related to early copper production in North America.Environmental science & technology, 47 11
V. Rocher, S. Azimi, J. Gaspéri, Loïc Beuvin, M. Muller, R. Moilleron, G. Chebbo (2004)
Hydrocarbons and Metals in Atmospheric Deposition and Roof Runoff in Central ParisWater, Air, and Soil Pollution, 159
(2002)
Geografia regionalna Polski
Abstract Total of 54 samples (of sediments taken from the surface of 5-cm layer of profundal zone of lakes in the catchment of the river Brda) were tested in presented research. The collected samples were analysed for the concentrations of Ag, As, Ba, Cd, Co, Cr, Cu, Ni, Pb, Sn, Sr, V and Zn, and Al, Ca, Fe, Mg, Mn, P and S, using inductively coupled plasma atomic emission spectroscopy (ICP-AES), after sample digestion in aqua regia. The Hg concentration was determined from solid samples using atomic absorption spectroscopy (TMA). The organic carbon content was determined using the coulometric method. Sediments of most of lakes examined in the Brda catchment area are characterised by low concentrations of trace elements. Sediments contained an average of 0.9 mg/kg of Cd, 0.107 mg/kg of Hg, 8 mg/kg of Ni, 46 mg/kg of Pb, 8 mg/kg of As, 78 mg/kg of Ba, 12 mg/kg of Cr, 94 mg/kg of Zn, 3 mg/kg of Co, 12 mg/kg of Cu, 1.3 mg/kg of Mo, 105 mg/kg of Sr and 16 mg/kg of V. The presence of elevated concentrations of chromium, copper, nickel and vanadium is controlled by a geogenic factor - weathering of glacial deposits containing fragments of igneous and metamorphic rocks which are the source of heavy metals. The presence of elevated contents of Pb, Zn, Hg and Cd is caused by anthropogenic factor. Most of the lake sediments show low concentrations of As, Cd, Cr, Cu, Hg and Ni, which do not pose a threat to aquatic organisms. The concentrations of lead in almost half of the samples are elevated to a level at which a negative effect of this element can be observed. In the case of zinc, the proportion of such samples is about 25%.
Ochrona Srodowiska i Zasobów Naturalnych – de Gruyter
Published: Dec 1, 2015
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