selected publications
-
academic article
- Diavik Waste Rock Project: Scale-up of a reactive transport model for temperature and sulfide-content dependent geochemical evolution of waste rock. Applied Geochemistry. 96:177-190. 2018
- Diavik waste rock project: A conceptual model for temperature and sulfide-content dependent geochemical evolution of waste rock – Laboratory scale. Applied Geochemistry. 89:160-172. 2018
- Waste Rock Biogeochemistry in a Permafrost Environment: Examination of a Cover Design for a Low-Sulfide, Granitic Waste Rock. Geomicrobiology Journal. 34.0:656.0-669.0. 2017
- Influence of a tundra freeze-thaw cycle on sulfide oxidation and metal leaching in a low sulfur, granitic waste rock. Applied Geochemistry. 76:9-21. 2017
- Early evolution of weathering and sulfide depletion of a low-sulfur, granitic, waste rock in an Arctic climate: A laboratory and field site comparison. Journal of Geochemical Exploration. 156:91-71. 2015
- The mineral and aqueous phase evolution of sulfur and nickel with weathering of pyrrhotite in a low sulfide, granitic waste rock. Chemical Geology. 401:169-179. 2015
- Diavik Waste Rock Project: evolution of mineral weathering, element release, and acid generation and neutralization during a five-year humidity cell experiment. Minerals. 4:257-278. 2014
- Process-based reactive transport modeling of a permeable reactive barrier for the treatment of mine drainage. Journal of Contaminant Hydrology. 85:195-211. 2006
- Geochemistry of an Organic-Based Permeable Reactive Barrier for Treatment of Heavy Metals. Ground Water. 40:59-66. 2002
- Rates of Sulfate REduction and Metal Sulfide Precipitation in a Permeable Reactive Barrier. Applied Geochemistry. 17:301-320. 2002
- Modeling Preferential Flow in Permeable Reactive Barriers: Implications for Performance and Design. Ground Water. 39:371-379. 2001
- Microbial Populations Assiciated with the Generation and Treatment of Acid Mine Drainage. Chemical Geology. 169:435-448. 2000
- Solid Phase Iron-Sulfur Geochemistry of a Reactive Barrier for Treatment of Mine Drainage. Applied Geochemistry. 15:1331-1343. 2000
- Treatment of Dissolved Metals and Nutrients Using Permeable Reactive Barriers. Journal of Contaminant Hydrology. 45:123-137. 2000
- Geochemistry and Microbiology of a Permeable Reactive Barrier for Acid Mine Drainage. Environmental Science and Technology. 33:2793-2799. 1999
- Surface Chemistry and Morphology of Poorly Crystalline Iron Sulfides Precipitated in Media Containing Sulfate-Reducing Bacteria. Chemical Geology. 144:87-97. 1998
- Porous Reactive Walls for the Prevention of Acid Mine Drainage: A Review. Mineral Processing and Extractive Metallurgy Review. 19:17-25. 1998
- Full-Scale Porous Reactive Wall for the Prevention of Acid Mine Drainage. Groundwater Monitoring and Remediation. 17. 1997
-
chapter
- Sulfate Reduction Reactive Barriers to Treat Acidity and Heavy Metals: Two Case Studies. Handbook of Ground Water Remediation of Metals Radionuclides, and Nutrients with Permeable Reactive Barriers. Ed. Davis, James A. Academic Press. 495-522. 2003
-
conference paper
- Long Term Performance of the Nickle Rim Reactive Barrier, A Summary. Proceedings of the Fifth International Conference on Acid Rock Drainage. 2000
- The Reactive Transport Model MIN3P: Application to Acid Mine Drainage Generation and Treatment - Nickle Rim Mine Site. Sudbury 99: Mining and the Environment II Conference. 1999
- Generation and Treatment of Acid Mine Drainage: Correlating Bacterial Populations with Water Chemistry. Proceedings of the Eighth Annual V.M. Goldschmidt Conference. 1998