1. Bioavailability of mercury in contaminated soils assessed by the diffusive gradient in thin film technique in relation to uptake by Miscanthus × giganteus
- Author
-
Andrea Ridošková, Vojtěch Adam, Aurélie Pelfrêne, Francis Douay, Vendula Smolikova, Pavlína Pelcová, and Analytical, Environmental & Geo-Chemistry
- Subjects
010504 meteorology & atmospheric sciences ,Health, Toxicology and Mutagenesis ,Biological Availability ,chemistry.chemical_element ,010501 environmental sciences ,Poaceae ,Models, Biological ,01 natural sciences ,Soil ,Soil Pollutants ,Environmental Chemistry ,Miscanthus giganteus ,Thin film ,Chromatography, High Pressure Liquid ,0105 earth and related environmental sciences ,Contaminated soils ,biology ,Biological Transport ,Mercury ,Miscanthus ,biology.organism_classification ,Mercury (element) ,Rhizome ,Bioavailability ,chemistry ,Environmental chemistry ,Soil water ,Ion Exchange Resins ,Environmental Monitoring - Abstract
We assessed the relationship between the diffusive gradient in thin film (DGT) technique using the new ion-exchange resin Ambersep GT74 and the uptake of mercury (Hg) by a model plant cultivated on metal-contaminated agricultural soils under greenhouse conditions. Based on the total Hg content, 0.37 to 1.17% of the Hg passed to the soil porewater from the solid phase, and 2.18 to 9.18% of the Hg is DGT-available. These results were confirmed by calculating the R value (the ratio of the concentrations of bioavailable Hg measured by DGT and soil solution), which illustrated the strong bonding of Hg to the solid phase of soil and its extremely low mobility. Only inorganic Hg2+ species were found in the metal-contaminated agricultural soils, as determined by a high-performance liquid chromatography-cold vapor atomic fluorescence spectrometry speciation analysis. The Hg was distributed in Miscanthus × giganteus organs in the following order for all sampling sites: roots (55-82%) >> leaves (8-27%) > stems (7-16%) > rhizomes (4-7%). Environ Toxicol Chem 2019;38:321-328. © 2018 SETAC.
- Published
- 2019
- Full Text
- View/download PDF