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Neculita, C.-M., Zagury, G. J., & Bussière, B. (2008). Effectiveness of sulfate-reducing passive bioreactors for treating highly contaminated acid mine drainage: I. Effect of hydraulic retention time. Applied Geochemistry, 23(12), 3442-3451. External link
Neculita, C.-M., Zagury, G. J., & Bussière, B. (2008). Effectiveness of sulfate-reducing passive bioreactors for treating highly contaminated acid mine drainage: II. Metal removal mechanisms and potential mobility. Applied Geochemistry, 23(12), 3545-3560. External link
Neculita, C.-M., Vigneault, B., & Zagury, G. J. (2008). Toxicity and Metal Speciation in Acid Mine Drainage Treated by Passive Bioreactors. Environmental Toxicology and Chemistry, 27(8), 1659-1667. External link
Zagury, G. J., Neculita, C.-M., Bastien, C., & Deschênes, L. (2006). Mercury Fractionation, Bioavailability, and Ecotoxicity in Highly Contaminated Soils From Chlor-Alkali Plants. Environmental Toxicology and Chemistry, 25(4), 1138-1147. External link
Neculita, C.-M., Zagury, G. J., & Deschênes, L. (2005). Mercury speciation in highly contaminated soils from Chlor-Alkali Plants using chemical extractions. Journal of Environmental Quality, 34(1), 255-262. External link