Long-term monitoring and modelling of a reclaimed watershed cover on oil sands tailings

International Journal of Mining, Reclamation and Environment

Volumn 27, Issue 3, 2013, Pages 180-201

  Dobchuk, Bonnie S ^a   Shurniak, Robert E ^a   Barbour, S Lee ^b   O'Kane, Mike A ^a   Song, Qing ^a  

^a O'Kane Consultants Inc   (Canada)

^b UNIVERSITY OF SASKATCHEWAN   (Canada)

Author keywords

monitoring; numerical modelling; oil sands tailings; pore water volume; reclamation cover; salinisation

Indexed keywords

LONG TERM MONITORING; LONG-TERM PERIOD; OIL SANDS MINING; OIL SANDS TAILINGS; PORE WATERS; SALINISATION; SOIL TEMPERATURE; STORAGE FACILITIES;

GROUNDWATER; LAND FILL; MONITORING; NUMERICAL MODELS; OIL SANDS; RECLAMATION; TAILINGS;

SALINE WATER;

MINING; MOISTURE FLUX; NUMERICAL MODEL; OIL SAND; POREWATER; SALINIZATION; SOIL COVER; SOIL TEMPERATURE; SUCTION; TAILINGS; WATER CONTENT; WATER TABLE; WATERSHED;

EID: 84878651133     PISSN: 17480930     EISSN: 17480949     Source Type: Journal    
DOI: 10.1080/17480930.2012.679477     Document Type: Article

References (35)

1. Syncrude. 2004. Discovering Nature's Way, Syncrude Canada Ltd., Fort McMuray.
2. Price, A. 2005. Evaluation of groundwater flow and salt transport within an undrained tailings sand dam, University of Albert. M.Sc. Thesis
3. Yarmuch, M. 2003. Measurement of soil physical parameters to evaluate soil structure quality in reclaimed oil sands, Alberta, Canada, University of Alberta. M.Sc. Thesis
4. Turchenek, L.W. and Lindsay, J.D. 1982. Soils inventory of the Alberta oil sands environmental research program study area AOSERP Report 122, The Alberta Oil Sands Environmental Research Program, Edmonton
5. Burgers, T.D. 2005. Reclamation of an oil sands tailings storage facility: vegetation and soil interactions, University of Alberta. M.Sc. Thesis
6. Lazorko, H.M. 2008. Root distribution, activity, and development for boreal species on reclaimed oil sand minesoils in Alberta, Canada, University of Saskatchewan. M.Sc. Thesis
7. Renault, S., Paton, E., Nilsson, G., Zwiazek, J.J. and MacKinnon, M. 1999. Responses of boreal plants to high salinity oil sands tailings water. J. Environ. Qual, 28: 1957 - 1962.
8. Howat, D.R. 2000. Acceptable salinity, sodicity and pH values for boreal forest reclamation Report # ESD/LM/00-2, Environmental Sciences Division, Alberta Environment, Edmonton
9. Marschner, H. 1986. Mineral nutrition of higher plants, 1st ed., London: Academic Press.
10. Gardner, W.R. and Fireman, M. 1958. Laboratory studies of evaporation from soil columns in the presence of a water table. Soil Sci, 85: 244 - 249.
11. Rasheed, H.R., Al-Anaz, H. and Abid, K.A. 1989. " Evaporation from soil surface in presence of shallow water tables ". In New directions for surface water modeling Edited by: Kavvas, M.L. Baltimore IAHS Publ. No. 181
12. Rose, D.A., Konukcu, F. and Gowing, J.W. 2005. Effect of watertable depth on evaporation and salt accumulation from saline groundwater. Aus. J. Soil Res, 43: 565 - 573.
13. Barbour, S.L., Chapman, D., Qualizza, C.V., Kessler, S., Boese, C., Shurniak, R., Meiers, G., O'Kane, M., Hendry, J. and Wall, S. 2004. Tracking the evolution of reclaimed landscapes through the use of instrumented watersheds - A brief history of the Syncrude Southwest 30 overburden reclamation research program. Proceedings of the International Instrumented Watershed Symposium. June 22-25 2004.
14. Robinson, D.A., Jones, S.B., Wraith, J.M., Or, D. and Friedman, S.P. 2003. A review of advances in dielectric and electrical conductivity measurement in soils using time domain reflectometry. Vadose Zone J, 2: 444 - 475.
15. Campbell Scientific, Inc. (CSI). 1998. 229 Soil Water Potential Probe Application Note CSI, Utah
16. Fredlund, D.G. and Wong, D.K.H. 1989. Calibration of thermal conductivity sensors for measuring soil suction. Geotech. Testing J, 12: 188 - 194.
17. Krahn, J. 2004. Vadose Zone Modeling with VADOSE/W - An Engineering Methodology, 1st ed. GEO-SLOPE International Ltd., Calgary
18. Wilson, G.W., Barbour, S.L. and Fredlund, D.G. 1997. The effect of soil suction on evaporative fluxes from soil surfaces. Can. Geotech. J, 33: 145 - 155.
19. Fredlund, D.G. and Xing, A. 1994. Equations for the soil-water characteristic curves. Can. Geotech. J, 31: 521 - 532.
20. Fredlund, D.G., Xing, A. and Huang, S. 1994. Predicting the permeability function for unsaturated soils using the soil-water characteristic curve. Can. Geotech. J, 31: 533 - 546.
21. Watson, K.K. 1966. An instantaneous profile method for determining the hydraulic conductivity of unsaturated porous materials. Water Resour. Res, 2: 709 - 715.
22. Weeks, L.V. and Richards, S.J. 1967. Soil-water properties computed from transient flow data. Soil Sci. Soc. Am. Proc, 31: 721 - 725.
23. Daniel, D.E. 1983. Permeability test for unsaturated soil. Geotech. Testing J, 6: 81 - 86.
24. Eching, S.O., Hopmans, J.W. and Wendroth, O. 1994. Unsaturated hydraulic conductivity from transient multistep outflow and soil water pressure data. Soil Sci. Soc. Am. J, 58: 687 - 695.
25. Shurniak, R.E. 2003. Predictive modeling of moisture movement within soil cover systems for saline/sodic overburden piles, University of Saskatchewan. M.Sc. Thesis
26. Khire, M.V., Benson, C.H. and Bosscher, P.J. 2000. Capillary barriers: design variables and water balance. J. Geotech. Geoenviron. Eng, 126: 695 - 708.
27. Bussière, B., Aubertin, M. and Chapuis, R.P. 2003. The behavior of inclined covers used as oxygen barriers. Can. Geotech. J, 40: 512 - 535.
28. Kelln, C.J., Barbour, S.L. and Qualizza, C.V. 2008. Controls on the spatial distribution of soil moisture and solute transport in a sloping reclamation cover. Can. Geotech. J, 45: 351 - 366.
29. Macyk, T.M. and Richens, T.C. 2002. Assessment of Rooting Characteristics and Nutrient Cycling in Soils at the Operations of Syncrude Canada Ltd Edmonton Alberta Research Council report prepared for Syncrude Canada Ltd
30. Meiers, G.P., Barbour, S.L., Qualizza, C.V. and Dobchuk, B. 2011. The evolution of the hydraulic conductivity of reclamation covers over sodic/saline mining overburden. J. Geotech. Geoenviron. Eng, 137: 968 - 976.
31. Basile, A., Ciollaro, G. and Coppola, A. 2003. Hysteresis in soil water characteristics as a key to interpreting comparisons of laboratory and field measured hydraulic properties. Water Resour. Res, 39: 1355 doi:10.1029/2003WR002432
32. Canone, D., Ferraris, S., Sander, G. and Haverkamp, R. 2008. Interpretation of water retention field measurements in relation to hysteresis phenomena. Water Resour. Res, 44: W00D12 doi:10.1029/2008WR007068
33. Fredlund, D.G. and Rahardjo, H. 1993. Soil Mechanics for Unsaturated Soils, New York: John Wiley & Sons, Inc.
34. Mualem, Y. 1974. A conceptual model of hysteresis. Water Resour. Res, 10: 514 - 520.
35. McKenna, G.T. 2002. Sustainable mine reclamation and landscape engineering, University of Alberta. Ph.D. diss