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Ben Ali, H. E., Neculita, C.-M., Molson, J. W., Maqsoud, A., & Zagury, G. J. (2020). Salinity and low temperature effects on the performance of column biochemical reactors for the treatment of acidic and neutral mine drainage. Chemosphere, 243, 9 pages. Lien externe
Ben Ali, H. E., Neculita, C.-M., Molson, J. W., Maqsoud, A., & Zagury, G. J. (2019). Efficiency of batch biochemical reactors for mine drainage treatment at low temperature and high salinity. Applied Geochemistry, 103, 40-49. Lien externe
Ben Ali, H. E., Neculita, C.-M., Molson, J. W., Maqsoud, A., & Zagury, G. J. (2019). Performance of passive systems for mine drainage treatment at low temperature and high salinity: A review. Minerals Engineering, 134, 325-344. Lien externe
Calugaru, I. L., Neculita, C.-M., Genty, T., & Zagury, G. J. (octobre 2017). Treatment of metals and metalloids in neutral mine effluents using modified materials [Communication écrite]. 2nd International Symposium on Land Reclamation and Ecological Restoration, (LRER 2017), Xi'an, China. Lien externe
Genty, T., Bussière, B., Benzaazoua, M., Neculita, C.-M., & Zagury, G. J. (2018). Changes in Efficiency and Hydraulic Parameters During the Passive Treatment of Ferriferous Acid Mine Drainage in Biochemical Reactors. [Änderungen der Effektivität und der hydraulischen Parameter während der passiven Behandlung von eisenreichen, sauren Grubenwässern in biochemischen Reaktoren]. Mine Water and the Environment, 37(4), 686-695. Lien externe
Genty, T., Bussière, B., Benzaazoua, M., Neculita, C.-M., & Zagury, G. J. (2017). Iron removal in highly contaminated acid mine drainage using passive biochemical reactors. Water Science and Technology, 76(7), 1833-1843. Lien externe
Jouini, M., Royer-Lavallée, A., Pabst, T., Chung, E., Kim, R., Cheong, Y.-W., & Neculita, C.-M. (2022). Sustainable production of rare earth elements from mine waste and geoethics. Minerals, 12(7), 17 pages. Lien externe
Neculita, C.-M., & Zagury, G. J. (2008). Biological Treatment of Highly Contaminated Acid Mine Drainage in Batch Reactors: Long-Term Treatment and Reactive Mixture Characterization. Journal of Hazardous Materials, 157(2-3), 358-366. Lien externe
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. Lien externe
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. Lien externe
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. Lien externe
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. Lien externe
Rakotonimaro, T. V., Neculita, C.-M., Bussière, B., Genty, T., & Zagury, G. J. (juin 2017). Iron and sulfate removal in highly contaminated acid mine drainage using passive multi-step systems [Communication écrite]. 13th IMWA Congress, Lappeenranta, Finland. Lien externe
Zagury, G. J., Kulnieks, V. I., & Neculita, C.-M. (2006). Characterization and Reactivity Assessment of Organic Substrates for Sulphate-Reducing Bacteria in Acid Mine Drainage Treatment. Chemosphere, 64(6), 944-954. Lien externe
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. Lien externe