Chronic and reproductive toxicity of cadmium, zinc, and lead in binary and tertiary mixtures to the earthworm (Eisenia fetida)
- 196 Downloads
The presence of one metal can alter the toxicity of another metal by having an additive, synergistic, or antagonistic impact. Mixed metal pollution has clear ecological consequences. The importance of use of earthworms for ecological health monitoring is recognized widely. This study investigated the effect of binary and tertiary metal mixtures on the toxicity, bioaccumulation, and reproduction of the Eisenia fetida in different South Australian soils.
Materials and methods
The end points used in this 56-day reproduction study were avoidance behavior, worm mortality, weight loss, reproduction, and metal (Cd, Zn, and Pb) bioaccumulation. The three soils (acidic, neutral, and alkaline) were spiked with selected binary and tertiary concentration mixtures that considered the soil quality guideline values, EC50 and LC50 values for Cd, Zn, and Pb obtained from the previous single metal earthworm experiments done by the authors.
Results and discussion
In acidic soil, Zn and Cd constituted the most toxic metal combination to earthworms. However, in contrast to this observation, the same metal combination was the least toxic one to earthworms in neutral and alkaline soils. For Zn and Pb spiked soils, relationships between soil and internal metal concentrations were found with R 2 = 0.63, r = 0.8, and R 2 = 0.94, p < 0.01, respectively, for Zn and Pb. This study indicates that earthworms have high tendency to bioaccumulate heavy metals in their tissues and hence serves as ecological indicators of soil heavy metal contamination. The highest bioaccumulation factor (0–9) was evident for Cd in contaminated soils. This study demonstrated the role of soil edaphic factors and metal-metal interactions in the toxicity of metal mixtures to E. fetida.
In Zn and Pb binary mixture spiked acidic soil, mortality of 60% was recorded even when the Pb and Zn concentrations were below the Canada and Dutch EIL (ecological investigational levels) values. This indicates the current guideline values are not safe for mixed metal toxicity. Therefore, care must be taken when predicting metal toxicities in mixed metal contaminated soils.
KeywordsBioaccumulation Earthworm Metal mixtures Soil guideline value Toxicity
All the authors would like to thank C. Danidu Kudagamage for helping with the earthworm experiments.
This study was funded through a CRCCARE postgraduate scholarship.
- Cáceres T, Megharaj M, Venkateswarlu K, Sethunathan N, Naidu R (2010) Fenamiphos and related organophosphorus pesticides: environmental fate and toxicology. SpringerGoogle Scholar
- Lokke H, Gestel CAM (1998) Handbook of soil invertebrate toxicity tests. Ecological & environmental toxicology series. John Wiley and Sons Ltd Chichester (United Kingdom), pp 281–285Google Scholar
- Morgan A, Morris B (1982) The accumulation and intracellular compartmentation of cadmium, lead, zinc and calcium in two earthworm species (Dendrobaena rubida and Lumbricus rubellus) living in highly contaminated soil. Histochemistry 75(2):269–285. https://doi.org/10.1007/BF00496017 CrossRefGoogle Scholar
- Nederlof M, Van Riemsdijk W, De Haan F 1993 Effect of pH on the bioavailability of metals in soils. Integrated sSoil and sSediment rResearch: aA bBasis for pProper pProtection. Springer, pp 215– 219Google Scholar
- Stephenson G, Kaushik A, Kaushik N, Solomon K, Steele T, Scroggins R (1998) Use of an avoidance-response test to assess the toxicity of contaminated soils to earthworms. Advances in earthworm ecotoxicology. SETAC, Pensacola, FL, USA, pp 67–81Google Scholar