Authors:
Bain, JG
Mayer, KU
Blowes, DW
Frind, EO
Molson, JWH
Kahnt, R
Jenk, U
Citation: Jg. Bain et al., Modelling the closure-related geochemical evolution of groundwater at a former uranium mine, J CONTAM HY, 52(1-4), 2001, pp. 109-135
Citation: Sg. Benner et al., Modeling preferential flow in reactive barriers: Implications for performance and design, GROUND WATE, 39(3), 2001, pp. 371-379
Citation: Rb. Herbert et al., Solid phase iron-sulfur geochemistry of a reactive barrier for treatment of mine drainage, APPL GEOCH, 15(9), 2000, pp. 1331-1343
Citation: Rh. Johnson et al., The hydrogeochemistry of the Nickel Rim mine tailings impoundment, Sudbury, Ontario, J CONTAM HY, 41(1-2), 2000, pp. 49-80
Citation: H. Mccreadie et Dw. Blowes, Influence of reduction reactions and solid phase composition on porewater concentrations of arsenic, ENV SCI TEC, 34(15), 2000, pp. 3159-3166
Citation: Sg. Benner et al., Microbial populations associated with the generation and treatment of acidmine drainage, CHEM GEOL, 169(3-4), 2000, pp. 435-448
Citation: Ta. Al et Dw. Blowes, Identification of preferential flow effects on hydraulic conductivity measurements using a fluorescent tracer, CAN GEOTECH, 37(2), 2000, pp. 479-484
Citation: Rw. Puls et al., Long-term performance monitoring for a permeable reactive barrier at the US Coast Guard Support Center, Elizabeth City, North Carolina, J HAZARD M, 68(1-2), 1999, pp. 109-124
Citation: Ta. Al et Dw. Blowes, The hydrogeology of a tailings impoundment formed by central discharge of thickened tailings: implications for tailings management, J CONTAM HY, 38(4), 1999, pp. 489-505
Citation: Rg. Mcgregor et al., Mobilization and attenuation of heavy metals within a nickel mine tailingsimpoundment near Sudbury, Ontario, Canada, ENVIR GEOL, 36(3-4), 1998, pp. 305-319