Isotopic labelling for sensitive detection of nanoparticle uptake and translocation in plants from hydroponic medium and soil

0509269 - ÚEB 2020 RIV AU eng J - Journal Article
Nath, J. - Dror, I. - Landa, Přemysl - Moťková, Kateřina - Vaněk, Tomáš - Berkowitz, B.
Isotopic labelling for sensitive detection of nanoparticle uptake and translocation in plants from hydroponic medium and soil.
Environmental Chemistry. Roč. 16, č. 6 (2019), s. 391-400. ISSN 1448-2517. E-ISSN 1449-8979
R&D Projects: GA MŠMT 8G15003
Institutional support: RVO:61389030
Keywords : copper nanoparticles * hydroponic cultivation * isotopically labelled nanoparticles * silver nanoparticles * zinc oxide nanoparticles
OECD category: Environmental biotechnology
Impact factor: 1.910, year: 2019
Method of publishing: Open access
http://dx.doi.org/10.1071/EN19064

Unintended releases of nanoparticles (NPs) into agricultural soil have recently raised concerns regarding NP accumulation in plants. In this study, specially synthesised isotopically labelled 107Ag-NPs, 65Cu-NPs and 70ZnO-NPs were exposed to three representative plants (Arabidopsis thaliana, Solanum lycopersicum (tomato) and Phragmites australis (common reed)) in hydroponic cultivation and, separately, to tomato plants cultivated in soil at concentrations of 2 mg L-1. Metal concentrations in all samples were analysed by inductively coupled plasma mass spectrometry following acid digestion. The use of isotopically labelled NPs confirmed that elevated levels of metals were from the NP source used for the experiments. Although the highest concentrations of NPs or metals were detected in roots in both hydroponic and soil cultivations, varied levels of translocation to shoots were observed in different plants under hydroponic cultivation. In soil cultivation, where tomato plants were grown to full maturity, low levels of 107Ag (0.38 mg kg-1) with respect to controls were recorded in tomato fruits, 70Zn showed the highest level of translocation to tomato stems (2.72 mg kg-1) and leaves (13.93 mg kg-1). Furthermore, the amounts of NPs retained in the soil (at different depths) after harvesting tomato plants were also determined, the highest concentrations of respective isotopes (1.25 mg kg-1 of 107Ag, 0.79 mg kg-1 of 65Cu, 4.06 mg kg-1 of 70Zn) were found in the top soil layer (∼3 cm). Analysis of NPs exposed to plants in hydroponic medium indicated that the presence of plants increases the dissolution of NPs. Scanning electron microscopy analysis enabled determination of the location of 107Ag-NPs in the roots of tomato plants grown in soil, these NPs were found to accumulate mainly in the cortical cells.
Permanent Link: http://hdl.handle.net/11104/0300024