ACTA FAC
MED NAISS 2014;31(1):59-65|
ACTA FAC
MED NAISS 2014;31(1):59-65 |
Original article
UDC:631.4:633.88
DOI:10.2478/afmnai-2014-0006
Bioavailability of Heavy Metals in the Soil from Different Locations of Medicinal Herbs
Biljana Kaličanin1, Dragan Velimirović1, Ivana Arsić1, Sofija Đorđević2
1University of Niš, Faculty of Medicine, Department of Pharmacy, Serbia
2Institute for Medical Plant
Research «Dr Josif Pančić», Belgrade, Serbia
summary
Medicinal herbs and their mixtures, which are widely used for prevention and
treatment of some disease, can also present health risks due to the presence of
toxic metals such as Pb and Cd. The application of different agrotechnical
practices during plant growing season, as well as the process of circulation of
substances in nature, may be the cause of plant contamination. The aim of this
study was to determine the content of lead, cadmium and copper from soil which
are bioavailable for absorption by plant, as well as the total content of these
metals in some medicinal herbs that were cultivated in two different locations.
The presence of these metals in the samples was detected using highly sensitive
micro-analytical technique potentiometric stripping analysis (PSA). The mean
value of lead total content in the analyzed samples of medicinal herbs
Chamimillae flos, Urticae folium, Menthae folium, Altheae radix and Basilici
herba, which were grown at the sites near the industrial zone, was about 1.55
µg/g, 1.82 µg/g, 1.90 µg/g, 1.99 µg/g and 2.74 µg/g, respectively. Contrary to
this, the total content of this toxic metal in the analyzed plant samples grown
on rural areas was detected only on some sites. Based on the results of this
study, it can be concluded that medicinal herbs contained a certain amount of
lead and that its content varied depending on the location at which the plant
species were grown as well as on plant affinity to certain metal. Cadmium and
copper were not detected in the tested plant material.
Key words: soil, medicinal herbs, toxic metals, bioavailability, potentiometric stripping analysis