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Concentration and bioavailability of toxic trace elements, germanium, and rare earth elements in contaminated areas of the Davidschacht dump-field in Freiberg (Saxony)
Title Concentration and bioavailability of toxic trace elements, germanium, and rare earth elements in contaminated areas of the Davidschacht dump-field in Freiberg (Saxony) Par.title Konzentration und Bioverfügbarkeit von Schwermetallen, Germanium und Seltenen Erdmetallen in kontaminierten Substraten der Spülhalde Davidschacht in Freiberg (Sachsen) Author info Pavol Midula ... [et al.] Author Midula Pavol 1989- (70%) UMBFP09 - Katedra biológie a ekológie
Co-authors Wiche Oliver (10%)
Wiese Paul (10%)
Andráš Peter 1953- (10%) UMBFP04 - Katedra životného prostredia
Source document Freiberg ecology online. online, vol. 1, no. 2 (2017), pp. 101-112. - Freiberg : University of Resources, 2017 Keywords bioavailability germanium Language English Country Germany systematics 574 Annotation The presented research is focused on the geochemical characterization of substrates of the Davidschacht dump-field in order to elucidate plant available concentrations of selected toxic trace elements (As, Zn, Cd, Pb), Ge, and rare earth elements (La, Nd, Gd). In total, 12 sampling sites with different composition of plant species were selected. Soil samples from a depth of 10 cm and samples of plant material were taken at each of these sites. The soil samples were analyzed for total concentrations of elements, pH (H2O) and element concentrations in four operationally defined soil fractions. Element concentrations in soil extracts and plant digests were measured by ICP-MS. Our results show that besides high concentrations of toxic trace elements, the substrates are characterized by high concentrations of Ge (up to 8 mg kg-1), but only moderate concentrations of REEs. The pH of the substrates correlated significantly positively with the total concentrations of all investigated elements, except of As and Pb. Potentially plant available concentrations decreased in the order Cd > Zn > As > Pb > >REEs > Ge. However, highest concentrations of Ge were found in Phragmites australis (0.63 mg kg-1 Ge) and Phalaris arundinacea (0.57 mg kg-1 Ge), whereas Populus tremula, Tanacetum vulgare, Lotus corniculatus and Agrostis capillaris showed high concentrations of toxic trace elements and rare earth elements URL https://www.researchgate.net/publication/315834363_Concentration_and_bioavailability_of_toxic_trace_elements_germanium_and_rare_earth_elements_in_contaminated_areas_of_the_Davidschacht_dump-field_in_Freiberg_Saxony Public work category ADE No. of Archival Copy 39104 Repercussion category SOBOLEV, O. - GUTYJ, B. - SOBOLIEVA, S. - BORSHCH, O. O. - KUSHNIR, I. M. - PETRYSHAK, R. A. - NAUMYUK, O. S. - KUSHNIR, V. - PETRYSHAK, O. Y. - ZHELAVSKYI, M. M. - TODORIUK, V. B. - SUS, H. - LEVKIVSKA, N. D. - VYSOTSKIJ, A. O. - MAGRELO, N. A review of germanium environmental distribution, migration and accumulation. In Ukrainian journal of ecology. ISSN 2520-2138, 2020, vol. 10, no. 2, pp. 200-208.
Catal.org. BB301 - Univerzitná knižnica Univerzity Mateja Bela v Banskej Bystrici Database xpca - PUBLIKAČNÁ ČINNOSŤ 
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