Most popular articles
Everything About Peaches. Clemson University Cooperative Extension Service Everything About Peaches Website: whether you are a professional or backyard peach...
Read more
Mission Statement. For the sake of mankind and the world as a whole a further increase of the sustainability...
Read more
Newsletter 9: July 2013 - Temperate Fruits in the Tropics and Subtropics. Download your copy of the Working Group Temperate...
Read more
USA Walnut varieties. The Walnut Germplasm Collection of the University of California, Davis (USA). A description of the Collection and a History...
Read more
China Walnut varieties.
Read more
Become a member

Articles

CADMIUM, LEAD AND NICKEL ACCUMULATION IN CHAMOMILE PLANTS GROWN ON HEAVY METAL-ENRICHED SOIL

Article number
749_28
Pages
231 – 237
Language
English
Abstract
The effects of heavy metal (Pb, Ni, and Cd) enrichment of soil on growth and quality of chamomile plants as well as on the ability of plants to accumulate these metals in their tissues were investigated using pot experiments.
Three parts of the plants were examined for heavy metal content: roots, leaves and flowers.
The levels of heavy metals in the soil used in this study (1-30 mg kg-1 for Cd, 60-1,800 mg kg-1 for Pb and 20-600 mg kg-1 for Ni) were not lethal for the chamomile plants.
The heavy metal content in different tissues of these plants varied from very low concentrations to levels exceeding the maximum acceptable concentration limits according WHO. In general, the metal content in chamomile plant organs decreased in the following order: roots > leaves > flowers.
Bioaccumulation factors which express the ratio of the metal concentration in the biological material to the metal concentration in soil or external solution were evaluated.
It was found that the mobility within the chamomile plants decreased in the following order: Cd > Ni > Pb.

Publication
I International Symposium on Chamomile Research, Development and Production
Authors
I. Salamon, P. Labun, M. Skoula, M. Fabian
Keywords
bioaccumulation factor, heavy metals, Matricaria recutita L.
Full text
https://doi.org/10.17660/ActaHortic.2007.749.28
Online Articles (36)
E. Masarovičová | K. Kráľová
R. Franke | H. Schilcher
I. Salamon
P. Purbrick | P. Blessing
L. Falzari | R. Menary | V. Dragar
M.S. Aly | M.S. Hussien
M. Azizi | R. Bos | H.J. Woerdenbag | O. Kayser
E. Mader | B. Bein-Lobmaier | J. Novak | C. Franz
R.K. Lal | S.P.S. Khanuja
K. Seidler-Lozykowska
V. Oravec Sr. | V. Oravec Jr. | V. Gaia – Mgr. Oravec
I. Salamon
M.S. Ristić | S.M. Đorđević | D.D. Đoković | S.R. Tasić
V. Filipović | J. Kisgeci | I. Salamon
Z.D. Stevanovič | S. Vrbničanin | R. Jevdjovič
B. Gosztola | E. Németh | A. Kozak | SZ. Sárosi | K. Szabó
Y. Kobayashi | A. Suzuki | A. Kobayashi | A. Ayaka Kasai | Y. Ogata | Y. Kumada | R. Takahashi | F. Ogino
O. Gacea | M. Hancianu | C. Aprotosoaie | A. Spac | V. Dorneanu | U. Stanescu
I. Salamon | I. Sudimáková
H. Kakuta | E. Yano-Kakuta | K. Moriya
M. Ahmadi-Golsefidi | M.H. Soleimani
M. Simonová | V. Strompfová | M. Marciňáková | M. Haviarová | S. Faix | A. Lauková | Z. Vasilková | I. Salamon
J. Poráčová | M. Blasčáková | M. Zahatňanská | B. Taylorová | I. Sutiaková | J. Sály
J. Poráčová | M. Zahatňanská | M. Blasčáková | B. Taylorová | I. Sutiaková | K. Tanishima | H. Takabayashi | B.J. Cheng
I. Salamon | A. Plačková
I. Salamon | K. Kráľová | E. Masarovičová
J. Lesíková | K. Kráľová | E. Masarovičová | J. Kubová | I. Ondrejkovičová
I. Salamon | P. Labun | M. Skoula | M. Fabian
K. Kráľová | E. Masarovičová | J. Kubová | O. Svajlenová
M. Pajic | D. Raicevic | R. Miodragovic | S. Ivanovic | K. Gligorevic | R. Jevdjovič
M. Pajic | D. Raicevic | D. Ercegovic | Z. Mileusnic | M. Oljaca | R. Radojevic
S. Ivanovic | M. Pajic | L. Ivanovic
M. Stričík | I. Salamon
D. Bucko | I. Salamon
V. Sutiak | I. Sutiaková | E. Čellárová | L. Droppová | B.F. Kania
S. Vaverková | M. Hollá | M. Mikulásová | M. Habán | P. Otepka | I. Vozár