The effect of biological and chemical factors on the uptake and toxicity of cadmium in the duckweed Lemna trisulca L
The duckweed Lemna trisulca L. was grown in axenic cultures in a filter-sterilized medium. A portion of the medium was replaced regularly during experiments. The amount replaced doubled every two days. metal concentrations in the medium wee measured on the last day of experiments. The only organic compound added was FeEDTA at a concentration of 9 [mu]M. The chelating capacity of the medium was therefore minimal, defined and controlled. The nutrient medium and environmental conditions supported a doubling time of 1.6 to 2.4 days over a 14 day culture period. Under the above conditions, the EC50 (concentration at which a 50% effect is observed) for Cd and 0.99 [mu]M based on multiplication rate and 0.56 [mu]M based on final yield. The NOEC (no observable effect concentration) for Cd was between 120 and 150 [mu]g Cd/g dry wt. based on internal Cd, and 0.08 [mu]M based on external Cd. Internal Cd may be a superior estimate of toxicity because it avoids the problems associated with metal speciation in the external medium and allows for a comparison with field data. Lemna trisulca responded within 2 days to the addition of 0.64 [mu]M Cd. No tolerance to Cd was induced even after 6 weeks of exposure. The calculated response of L. trisulca to Cd may have been influenced by the multiplication rate of control cultures, which varied from 1.6 to 2.4 days. Calcium had no effect on Cd uptake or toxicity. Zinc antagonized Cd toxicity but had a variable effect on Cd uptake depending on its concentration. Zinc was about fifteen times less toxic than Cd. The uptake and toxicity of Cd and Zn were almost completely prevented when the level of available EDTA was in excess of the CD or Zn concentration. These data indicate that biological and chemical factors can profoundly influence the effect of toxicants on living organisms. These factors must be considered to ensure that toxicity studies are not confounded by effects extraneous to the actual effect of the toxicant.
- Research Organization:
- Manitoba Univ., Winnipeg, MB (Canada)
- OSTI ID:
- 5409830
- Resource Relation:
- Other Information: Thesis (Ph.D.). Order No. DANN77990
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
AQUATIC ECOSYSTEMS
PLANT GROWTH
CADMIUM
BIOLOGICAL ACCUMULATION
BIOLOGICAL EFFECTS
TOXICITY
FRESH WATER
PLANTS
ECOSYSTEMS
ELEMENTS
GROWTH
HYDROGEN COMPOUNDS
METALS
OXYGEN COMPOUNDS
WATER
560300* - Chemicals Metabolism & Toxicology