{"id":242,"date":"2021-03-27T20:32:22","date_gmt":"2021-03-27T20:32:22","guid":{"rendered":"https:\/\/books.gw-project.org\/hydrogeology-and-mineral-resource-development\/?post_type=part&p=242"},"modified":"2021-03-28T02:37:42","modified_gmt":"2021-03-28T02:37:42","slug":"references","status":"publish","type":"part","link":"https:\/\/books.gw-project.org\/hydrogeology-and-mineral-resource-development\/part\/references\/","title":{"raw":"13 References","rendered":"13 References"},"content":{"raw":"
\r\n

Amos, R., D. Blowes, L. Smith and D. Sego, 2009, Measurement of wind-induced pressure gradients in a waste rock pile. Vadose Zone Journal, volume 8, pages 953-962.<\/p>\r\n

Amos, R., D. Blowes, B. Bailey, D. Sego, L. Smith and I. Ritchie, 2015, Waste-rock hydrogeology and geochemistry. Applied Geochemistry, volume 57, pages 140-156.<\/p>\r\n

Andrina, J., W. Wilson and S. Miller, 2009, Behavior of water flow and geochemical mixing in layered waste rock stockpiles: A mesoscale experiment. Proceedings of Eighth International Conference on Acid Rock Drainage, Sweden.<\/p>\r\n

Australian Government, 2012, Australian groundwater modeling guidelines. National Water Commission, Waterline Report Series, Number 82, 2012.<\/p>\r\n

Bailey, B., D. Blowes, L. Smith and D. Sego, 2016, The Diavik Waste Rock Project: Geochemical and microbiological characterization of low sulphide content large-scale waste rock test piles. Applied Geochemistry, volume 65, pages 54-72.<\/p>\r\n

Barbour, L., M.J. Hendry and S. K. Carey, 2016, High-resolution profiling of the stable isotopes of water in unsaturated coal waste rock. Journal of Hydrology, volume 534, pages 616-629.<\/p>\r\n

Beale, G., J. De Souza, R. Smith and B. St. Louis, 2013, Implementation of slope depressurization systems. Chapter 5, in<\/em>,<\/em> Guidelines for Evaluating Water in Pit Slope Stability, Editors, G. Beale and J. Read. Chemical Rubber Company Press.<\/p>\r\n

Birch, M., B. Semmens, L. Smith, D. Banton and N. Hall, 2006, Modeling of groundwater inflow to a large open-pit in low-permeability mountainous terrain. Proceedings of Seventh International Conference on Acid Rock Drainage, St. Louis, Missouri, pages 140-157.<\/p>\r\n

Blackmore, S., D. Pedretti, U. Mayer, L. Smith and R. Beckie, 2018, Evaluation of single- and dual- porosity models for reproducing the release of external and internal tracers from heterogeneous waste rock piles. Journal of Contaminant Hydrology, volume 214, pages 65-74.<\/p>\r\n

Byrne, P., R. Runkel and K. Walton-Day, 2017, Synoptic sampling and principal components analysis to identify sources of water and metals to an acid mine drainage stream. Environmental Science and Pollution Research, volume 24, pages 17220-17240.<\/p>\r\n

Cumulative Environmental Management Association (CEMA), 2014, Guidelines for Wetland Establishment on Reclaimed Oil Sands Leases, Third Edition. Cumulative Environmental Management Association, Fort McMurray.<\/p>\r\n

Doubek, G., A. Creighton, J. Dowling, M. Price and M. Hawley, 2013, Site characterization, Chapter 3, in<\/em>,<\/em> Guidelines for Evaluating Water in Pit Slope Stability, editors, G. Beale and J. Read. Chemical Rubber Company Press.<\/p>\r\n

Golder Incorporated, 2017, Literature Review of Global Pit Lakes. Report 1777450, www.cosia.ca\/sites\/default\/files\/attachments\/Literature%20Review%20of%20Global%20Pit%20Lakes_0.pdf<\/span><\/a>.<\/p>\r\n

Goodman, R.E., D.G. Moye, A. van Schalkwyk, and I. Javandel, 1965, Ground water inflows during tunnel driving. Engineering Geology, volume 2, pages 39-56.<\/p>\r\n

Lahmira, B., R. Lefebvre, M. Aubertin and B. Bussiere, 2017, Effect of material variability and compacted layers on transfer processes in heterogeneous waste rock piles. Journal of Contaminant Hydrology, volume 204, pages 66-78.<\/p>\r\n

Linklater, C., A. Watson, A. Hendry, J. Chapman, J. Crosbie and P. Defferrard, 2017, Pit lake water quality modeling at Century Mine, i<\/em>n<\/em>, Proceedings of the Ninth Australian Workshop on Acid and Metalliferous Drainage, Burnie, Tasmania, pages 20-23, editors, Bell, L.C., M. Edraki and C. Gerbo. The University of Queensland, Brisbane, pages 228-238.<\/p>\r\n

Marinelli, F. and W. Niccoli, 2000, Simple analytical equations for estimating ground water inflow to a mine pit. Groundwater, volume 38, number 2, pages 311-314.<\/p>\r\n

Martin, D. and P. Stacey, 2017, editors, Guidelines for Open Pit Design in Weak Rocks. Chemical Rubber Company Press.<\/p>\r\n

Middlemis, H. and L.J.M. Peters, 2018, Uncertainty analysis - Guidance for groundwater modeling within a risk management framework, Independent Expert Scientific Committee on Coal Seam Gas and Large Coal Mining Development. Department of Environment and Energy, commonwealth of Australia.<\/p>\r\n

Minerals Council of Australia, 2014, Water accounting framework for the minerals industry, User Guide. Minerals Council of Australia.<\/p>\r\n

Molson, J., O. Fala, M. Aubertin and B. Bussiere, 2005, Numerical simulations of pyrite oxidation and acid mine drainage in unsaturated waste rock piles. Journal of Contaminant Hydrology, volume 78, pages 343-371.<\/p>\r\n

Nichol, C., L. Smith and R. Beckie, 2005, Field-scale experiments of unsaturated flow and solute transport in a heterogeneous porous medium. Water Resources Research, volume 41.<\/p>\r\n

Neuner, M., L. Smith, D. Blowes, D. Sego, N. Fretz and M. Gupton, 2013, The Diavik Waste Rock Project: Water flow through waste rock in a permafrost terrain. Applied Geochemistry, volume 36, pages 222-233.<\/p>\r\n

Singh, R.N. and A.S. Atkins, 1985, Analytical techniques for the estimation of mine water inflow. International Journal of Mining Engineering, volume 3, pages 65-77.<\/p>\r\n

Smith, L. and R. Beckie, 2003, Hydrologic and geochemical transport processes in mine waste rocks, in<\/em>,<\/em> Environmental Aspects of Mine Wastes. Mineralogical Association of Canada, Short Course Series, volume 31, pages 51-72.<\/p>\r\n

Smith, L., M. Moncur, M. Neuner, M. Gupton, D. Blowes and D. Sego, 2013, The Diavik Waste Rock Project: Design, construction and instrumentation of field-scale experimental waste-rock piles. Applied Geochemistry, volume 36, pages 187-199.<\/p>\r\n

Sperling, T., A. Freeze, J. Massmann, L. Smith and B. James, 1992, Hydrogeological decision analysis: Application to the design of a groundwater control system at an open pit mine. Groundwater, volume 30, number 3, pages 376-389.<\/p>\r\n

Vriens, B., H. Peterson, L. Laurenzi, L. Smith, C. Aranda, U. Mayer and R. Beckie, 2019, Long-term monitoring of waste-rock weathering at the Antamina mine, Peru. Chemosphere, volume 215, pages 858-869.<\/p>\r\n

Wilson, D., R. Amos, D. Blowes, J. Langman, L. Smith and D. Sego, 2018, The Diavik Waste Rock Project: Scale-up of a reactive transport model for temperature and sulphide-content dependent geochemical evolution of waste rock. Applied Geochemistry, volume 96, pages 177-190.<\/p>\r\n

<\/p>\r\n\r\n<\/div>","rendered":"

\n

Amos, R., D. Blowes, L. Smith and D. Sego, 2009, Measurement of wind-induced pressure gradients in a waste rock pile. Vadose Zone Journal, volume 8, pages 953-962.<\/p>\n

Amos, R., D. Blowes, B. Bailey, D. Sego, L. Smith and I. Ritchie, 2015, Waste-rock hydrogeology and geochemistry. Applied Geochemistry, volume 57, pages 140-156.<\/p>\n

Andrina, J., W. Wilson and S. Miller, 2009, Behavior of water flow and geochemical mixing in layered waste rock stockpiles: A mesoscale experiment. Proceedings of Eighth International Conference on Acid Rock Drainage, Sweden.<\/p>\n

Australian Government, 2012, Australian groundwater modeling guidelines. National Water Commission, Waterline Report Series, Number 82, 2012.<\/p>\n

Bailey, B., D. Blowes, L. Smith and D. Sego, 2016, The Diavik Waste Rock Project: Geochemical and microbiological characterization of low sulphide content large-scale waste rock test piles. Applied Geochemistry, volume 65, pages 54-72.<\/p>\n

Barbour, L., M.J. Hendry and S. K. Carey, 2016, High-resolution profiling of the stable isotopes of water in unsaturated coal waste rock. Journal of Hydrology, volume 534, pages 616-629.<\/p>\n

Beale, G., J. De Souza, R. Smith and B. St. Louis, 2013, Implementation of slope depressurization systems. Chapter 5, in<\/em>,<\/em> Guidelines for Evaluating Water in Pit Slope Stability, Editors, G. Beale and J. Read. Chemical Rubber Company Press.<\/p>\n

Birch, M., B. Semmens, L. Smith, D. Banton and N. Hall, 2006, Modeling of groundwater inflow to a large open-pit in low-permeability mountainous terrain. Proceedings of Seventh International Conference on Acid Rock Drainage, St. Louis, Missouri, pages 140-157.<\/p>\n

Blackmore, S., D. Pedretti, U. Mayer, L. Smith and R. Beckie, 2018, Evaluation of single- and dual- porosity models for reproducing the release of external and internal tracers from heterogeneous waste rock piles. Journal of Contaminant Hydrology, volume 214, pages 65-74.<\/p>\n

Byrne, P., R. Runkel and K. Walton-Day, 2017, Synoptic sampling and principal components analysis to identify sources of water and metals to an acid mine drainage stream. Environmental Science and Pollution Research, volume 24, pages 17220-17240.<\/p>\n

Cumulative Environmental Management Association (CEMA), 2014, Guidelines for Wetland Establishment on Reclaimed Oil Sands Leases, Third Edition. Cumulative Environmental Management Association, Fort McMurray.<\/p>\n

Doubek, G., A. Creighton, J. Dowling, M. Price and M. Hawley, 2013, Site characterization, Chapter 3, in<\/em>,<\/em> Guidelines for Evaluating Water in Pit Slope Stability, editors, G. Beale and J. Read. Chemical Rubber Company Press.<\/p>\n

Golder Incorporated, 2017, Literature Review of Global Pit Lakes. Report 1777450, www.cosia.ca\/sites\/default\/files\/attachments\/Literature%20Review%20of%20Global%20Pit%20Lakes_0.pdf<\/span><\/a>.<\/p>\n

Goodman, R.E., D.G. Moye, A. van Schalkwyk, and I. Javandel, 1965, Ground water inflows during tunnel driving. Engineering Geology, volume 2, pages 39-56.<\/p>\n

Lahmira, B., R. Lefebvre, M. Aubertin and B. Bussiere, 2017, Effect of material variability and compacted layers on transfer processes in heterogeneous waste rock piles. Journal of Contaminant Hydrology, volume 204, pages 66-78.<\/p>\n

Linklater, C., A. Watson, A. Hendry, J. Chapman, J. Crosbie and P. Defferrard, 2017, Pit lake water quality modeling at Century Mine, i<\/em>n<\/em>, Proceedings of the Ninth Australian Workshop on Acid and Metalliferous Drainage, Burnie, Tasmania, pages 20-23, editors, Bell, L.C., M. Edraki and C. Gerbo. The University of Queensland, Brisbane, pages 228-238.<\/p>\n

Marinelli, F. and W. Niccoli, 2000, Simple analytical equations for estimating ground water inflow to a mine pit. Groundwater, volume 38, number 2, pages 311-314.<\/p>\n

Martin, D. and P. Stacey, 2017, editors, Guidelines for Open Pit Design in Weak Rocks. Chemical Rubber Company Press.<\/p>\n

Middlemis, H. and L.J.M. Peters, 2018, Uncertainty analysis – Guidance for groundwater modeling within a risk management framework, Independent Expert Scientific Committee on Coal Seam Gas and Large Coal Mining Development. Department of Environment and Energy, commonwealth of Australia.<\/p>\n

Minerals Council of Australia, 2014, Water accounting framework for the minerals industry, User Guide. Minerals Council of Australia.<\/p>\n

Molson, J., O. Fala, M. Aubertin and B. Bussiere, 2005, Numerical simulations of pyrite oxidation and acid mine drainage in unsaturated waste rock piles. Journal of Contaminant Hydrology, volume 78, pages 343-371.<\/p>\n

Nichol, C., L. Smith and R. Beckie, 2005, Field-scale experiments of unsaturated flow and solute transport in a heterogeneous porous medium. Water Resources Research, volume 41.<\/p>\n

Neuner, M., L. Smith, D. Blowes, D. Sego, N. Fretz and M. Gupton, 2013, The Diavik Waste Rock Project: Water flow through waste rock in a permafrost terrain. Applied Geochemistry, volume 36, pages 222-233.<\/p>\n

Singh, R.N. and A.S. Atkins, 1985, Analytical techniques for the estimation of mine water inflow. International Journal of Mining Engineering, volume 3, pages 65-77.<\/p>\n

Smith, L. and R. Beckie, 2003, Hydrologic and geochemical transport processes in mine waste rocks, in<\/em>,<\/em> Environmental Aspects of Mine Wastes. Mineralogical Association of Canada, Short Course Series, volume 31, pages 51-72.<\/p>\n

Smith, L., M. Moncur, M. Neuner, M. Gupton, D. Blowes and D. Sego, 2013, The Diavik Waste Rock Project: Design, construction and instrumentation of field-scale experimental waste-rock piles. Applied Geochemistry, volume 36, pages 187-199.<\/p>\n

Sperling, T., A. Freeze, J. Massmann, L. Smith and B. James, 1992, Hydrogeological decision analysis: Application to the design of a groundwater control system at an open pit mine. Groundwater, volume 30, number 3, pages 376-389.<\/p>\n

Vriens, B., H. Peterson, L. Laurenzi, L. Smith, C. Aranda, U. Mayer and R. Beckie, 2019, Long-term monitoring of waste-rock weathering at the Antamina mine, Peru. Chemosphere, volume 215, pages 858-869.<\/p>\n

Wilson, D., R. Amos, D. Blowes, J. Langman, L. Smith and D. Sego, 2018, The Diavik Waste Rock Project: Scale-up of a reactive transport model for temperature and sulphide-content dependent geochemical evolution of waste rock. Applied Geochemistry, volume 96, pages 177-190.<\/p>\n

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