Detailed Information on Publication Record
2003
Mobility, bioavailability and toxic effects of cadmium in soil samples.
PROKOP, Zbyněk, Pavel ČUPR, V. ZLEVOROVÁ-ZLÁMALÍKOVÁ, Josef KOMÁREK, Ladislav DUŠEK et. al.Basic information
Original name
Mobility, bioavailability and toxic effects of cadmium in soil samples.
Name in Czech
mobilita, biodostupnost a toxické efekty kadmia v půdě
Authors
PROKOP, Zbyněk (203 Czech Republic, guarantor), Pavel ČUPR (203 Czech Republic), V. ZLEVOROVÁ-ZLÁMALÍKOVÁ (203 Czech Republic), Josef KOMÁREK (203 Czech Republic), Ladislav DUŠEK (203 Czech Republic) and Ivan HOLOUBEK (203 Czech Republic)
Edition
Environmental Research, 2003, 0013-9351
Other information
Language
English
Type of outcome
Článek v odborném periodiku
Field of Study
30304 Public and environmental health
Country of publisher
Netherlands
Confidentiality degree
není předmětem státního či obchodního tajemství
Impact factor
Impact factor: 1.452
RIV identification code
RIV/00216224:14310/03:00008644
Organization unit
Faculty of Science
Keywords in English
Mobility; bioavailability and toxic effects of cadmium in soil samples.
Tags
Tags
International impact, Reviewed
Změněno: 14/8/2008 09:22, doc. RNDr. Pavel Čupr, Ph.D.
V originále
Total concentration is not a reliable indicator of metal mobility or bioavailability in soils. The physicochemical form determines the behavior of metals in soils and hence the toxicity toward terrestrial biota. The main objectives of this study were the application and comparison of three approaches for the evaluation of cadmium behavior in soil samples. The mobility and bioavailability of cadmium in five selected soil samples were evaluated using equilibrium speciation (Windermere humic aqueous model (WHAM), extraction procedures (Milli-Q water, DMSO, and DTPA), and a number of bioassays (Microtox, growth inhibition test, contact toxicity test, and respiration). The mobility, represented by the water-extractable fraction, corresponded well with the amount of cadmium in the soil solution, calculated using the WHAM (r2 0:96; Po0:001). The results of the ecotoxicological evaluation, which represent the bioavailable fraction of cadmium, correlated well with DTPA extractability and also with the concentration of free cadmium ion, which is recognized as the most bioavailable metal form. The results of the WHAM as well as the results of extraction experiments showed a strong binding of cadmium to organic matter and a weak sorption of cadmium to clay minerals.
In Czech
Total concentration is not a reliable indicator of metal mobility or bioavailability in soils. The physicochemical form determines the behavior of metals in soils and hence the toxicity toward terrestrial biota. The main objectives of this study were the application and comparison of three approaches for the evaluation of cadmium behavior in soil samples. The mobility and bioavailability of cadmium in five selected soil samples were evaluated using equilibrium speciation (Windermere humic aqueous model (WHAM), extraction procedures (Milli-Q water, DMSO, and DTPA), and a number of bioassays (Microtox, growth inhibition test, contact toxicity test, and respiration). The mobility, represented by the water-extractable fraction, corresponded well with the amount of cadmium in the soil solution, calculated using the WHAM (r2 0:96; Po0:001). The results of the ecotoxicological evaluation, which represent the bioavailable fraction of cadmium, correlated well with DTPA extractability and also with the concentration of free cadmium ion, which is recognized as the most bioavailable metal form. The results of the WHAM as well as the results of extraction experiments showed a strong binding of cadmium to organic matter and a weak sorption of cadmium to clay minerals.
Links
GA205/02/0896, research and development project |
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GA525/00/D101, research and development project |
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GA526/98/1147, research and development project |
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