Abstract
The present study was conducted to evaluate the sensitivity of the Vibrio fischeri bioluminescence inhibition test (Microtox® assay), and the standard acute Daphnia magna test; using 3 heavy metals, 3 organic pesticides, and their mixtures. In Daphnia tests, either at 24h or 30 min exposure times, the pattern of toxicity order for heavy metals was Cu ˃ Cd ˃ Pb. Chlorpyrifos-methyl was the highest toxic at 24h, while Triazophos was the highest toxic at 30 min exposure times. In the Microtox® test at 5 min exposure time, the estimated EC50 values were 4.20, 4.53 and 6.60 mg/L for Cu, Cd and Pb, respectively. At the same exposure time, the EC50 values of Triazophos, Chlorpyrifos-Me and Profenofos accounted to 1.76, 3.36 and 4.12 mg/L, respectively. Similar order of toxicity was obtained when tests were conducted at 15 min exposure time. The paired mixtures of pesticides, as well as the mixtures of Cu + Cd and Pb + Cd, showed potentiation effects, while the mixture of Cu + Pb showed additive effect against D. magna. The tertiary mixtures of the pesticides or the heavy metals reacted antagonistically. In the Microtox® assay, the heavy metal mixtures reacted antagonistically, while pesticide mixtures showed synergism. It was concluded that both Daphnia and Microtox® tests showed similar pattern of sensitivity to the single toxicants, but dissimilar pattern to the heavy metal mixtures. On the other side, using shorter exposure time (ca. 30 min) with Daphnia bioassay may enable us to held reliable comparisons with Microtox® results.
Highlights
Contamination of aquatic environments by various natural and industrial chemical compounds is being considered as a major environmental problem of global concern (Schwarzenbach et al, 2006)
The present study was conducted to evaluate the sensitivity of the Vibrio fischeri bioluminescence inhibition test (Microtox® assay), and the standard acute Daphnia magna test; using 3 heavy metals, 3 organic pesticides, and their mixtures
Pesticides and heavy metals are among important contaminants of aquatic ecosystems
Summary
Contamination of aquatic environments by various natural and industrial chemical compounds is being considered as a major environmental problem of global concern (Schwarzenbach et al, 2006). Pesticides and heavy metals are among important contaminants of aquatic ecosystems. Monitoring of such contaminants in different environmental components helps to protect the natural environment and human health. Physicochemical monitoring processes have traditionally been used for control and assessment of environmental chemical pollutants. The data borne from such procedures doesn’t provide information about toxicity interaction between the chemical pollutant(s) and the biological material. A realistic interpretation of chemical toxicity to biological systems can only be carried out by use of a system which employs living organisms (Pascoe, 1987)
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