Publication detail

Biogeochémia ortuti v systéme pôda-rastlina v antropogénne kontaminovanej oblasti

Hlodák, M Matúš, P Urík, M Kořenková, L Mikušová, P Senila, M Diviš, P.

Original Title

Biogeochémia ortuti v systéme pôda-rastlina v antropogénne kontaminovanej oblasti

English Title

Biogeochemistry of Hg in Soil-Plant System in Regions with Anthropogenic Contamination

Type

journal article in Scopus

Language

Slovak

Original Abstract

Tato práce se zabývá studiem frakcionace rtuti v půdách s cílem co nejlépe odhadnout množství fytodostupných frakcí rtuti. K těmto účelům bylo použito několik extrakčních technik. V rámci práce byl také studován transfer rtuti z půdy do ječmene setého a do vybraných druhů kořenové zeleniny.

English abstract

Application of selected separation techniques and obtained total Hg concentrations in studied plant species indicate relatively low Hg phytoavailability in studied soils. Calculated separation yields for applied separation techniques were in many cases comparable with soil-plant transfer recovery values for studied plant species. Distribution of Hg in roots of studied root vegetables showed the tendency of increasing amount of Hg from basal towards terminal part of root. Biogeochemistry of Hg in Soil-Plant System in Regions with Anthropogenic Contamination.

Keywords

Hg, pôda, rastliny, koeficient transferu

Key words in English

Hg, plants, soil, distribution coefficient

Authors

Hlodák, M; Matúš, P; Urík, M; Kořenková, L; Mikušová, P; Senila, M; Diviš, P.

RIV year

2015

Released

1. 6. 2015

ISBN

0009-2770

Periodical

Chemické listy

Year of study

109

Number

6

State

Czech Republic

Pages from

385

Pages to

389

Pages count

5

BibTex

@article{BUT114773,
  author="Hlodák, M and Matúš, P and Urík, M and Kořenková, L and Mikušová, P and Senila, M and Diviš, P.",
  title="Biogeochémia ortuti v systéme pôda-rastlina v antropogénne kontaminovanej oblasti",
  journal="Chemické listy",
  year="2015",
  volume="109",
  number="6",
  pages="385--389",
  issn="0009-2770"
}