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Graf M Lair GJ Zehetner F Gerzabek MH 《Environmental pollution (Barking, Essex : 1987)》2007,148(3):788-796
The influence of soil formation on copper sorption is documented based on chronosequences of soils from three river floodplains in Europe (Danube, Ebro and Elbe). Sequential extraction was used to fractionate copper in original and spiked soils in order to study the long-term and short-term behaviour of copper retention. Copper partitioning among defined geochemical fractions was mainly determined by soil pH and the contents of carbonates, organic matter and Fe-/Mn-oxides and hydroxides. Copper extracted with NH(2)OH.HCl correlated well with the contents of crystalline Fe-oxides and hydroxides, demonstrating increasing retention capacity with progressing soil development. Copper retained in original soils was found in more strongly bound fractions, whereas sorption of freshly added copper was primarily influenced by the presence of carbonates. Beyond the effect of progressing soil formation, variations in organic carbon contents due to different land use history affected the copper retention capacity of the investigated soils. 相似文献
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Sorption of heavy metals to organic matter and mineral soil constituents can hardly be separated experimentally. Here we studied
the retention capacity of organic matter and minerals from soils in a long-term field experiment in which the organic carbon
content had been altered, but the mineral phase had remained constant over time. The sorption of Cu, Cd and Zn showed a non-additive
contribution of soil organic matter and minerals to the sorption capacity of soil. Sorption on organic matter exceeded mineral
sorption from 6 to 13 times. This is the first time that sorption to soil organic matter is quantified in bulk soils. 相似文献
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Manoj Menon Svetla Rousseva Nikolaos P. Nikolaidis Pauline van Gaans Panos Panagos Danielle Maia de Souza Kristin Vala Ragnarsdottir Georg J. Lair Liping Weng Jaap Bloem Pavel Kram Martin Novak Brynhildur Davidsdottir Gudrun Gisladottir David A. Robinson Brian Reynolds Tim White Lars Lundin Bin Zhang Christopher Duffy Stefano M. Bernasconi Peter de Ruiter Winfried E. H. Blum Steven A. Banwart 《Environmental science and pollution research international》2014,21(4):3191-3195
Soil is a complex natural resource that is considered non-renewable in policy frameworks, and it plays a key role in maintaining a variety of ecosystem services (ES) and life-sustaining material cycles within the Earth's Critical Zone (CZ). However, currently, the ability of soil to deliver these services is being drastically reduced in many locations, and global loss of soil ecosystem services is estimated to increase each year as a result of many different threats, such as erosion and soil carbon loss. The European Union Thematic Strategy for Soil Protection alerts policy makers of the need to protect soil and proposes measures to mitigate soil degradation. In this context, the European Commission-funded research project on Soil Transformations in European Catchments (SoilTrEC) aims to quantify the processes that deliver soil ecosystem services in the Earth's Critical Zone and to quantify the impacts of environmental change on key soil functions. This is achieved by integrating the research results into decision-support tools and applying methods of economic valuation to soil ecosystem services. In this paper, we provide an overview of the SoilTrEC project, its organization, partnerships and implementation. 相似文献
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G.J. Lair M. Fiebig C.A.M. van Gestel S. Hohensinner K.C. Jones A.A. Koelmans A. Poot K.U. Totsche J.A.C. Barth 《Environmental pollution (Barking, Essex : 1987)》2009,157(12):3336-3346
In many densely populated areas, riverine floodplains have been strongly impacted and degraded by river channelization and flood protection dikes. Floodplains act as buffers for flood water and as filters for nutrients and pollutants carried with river water and sediment from upstream source areas. Based on results of the EU-funded “AquaTerra” project (2004-2009), we analyze changes in the dynamics of European river-floodplain systems over different temporal scales and assess their effects on contaminant behaviour and ecosystem functioning. We find that human-induced changes in the hydrologic regime of rivers have direct and severe consequences on nutrient cycling and contaminant retention in adjacent floodplains. We point out the complex interactions of contaminants with nutrient availability and other physico-chemical characteristics (pH, organic matter) in determining ecotoxicity and habitat quality, and draw conclusions for improved floodplain management. 相似文献
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