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Skip to Search Results- 102Smreciu, A.
- 101Gould, K.
- 101Wood, S.
- 14OSRIN
- 10Oil Sands Research and Information Network
- 10Syncrude Canada Ltd.
- 599Oil Sands Research and Information Network (OSRIN)
- 221Oil Sands Research and Information Network (OSRIN)/AOSERP Reports
- 100Oil Sands Research and Information Network (OSRIN)/Revegetation Species Profiles
- 96Oil Sands Research and Information Network (OSRIN)/Government of Alberta Reports
- 72Oil Sands Research and Information Network (OSRIN)/OSRIN Technical Reports
- 61Oil Sands Research and Information Network (OSRIN)/Syncrude Canada Ltd. Reports
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1982
The Alberta Forest Service has questioned the use of Caragana arborescens Lam. (common names: caragana, Siberian peatree and Siberian peashrub; the common name caragana will be used throughout this report) as a high-portion species for afforestation of reclaimed areas associated with oil sands...
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Carbon and Nitrogen Mineralization and Microbial Succession in Oil Sands Reclamation Soils Amended with Pyrogenic Carbon
Download2014-12-31
Mackenzie, M.D., Lanoil, B., Hofstetter, S., Hatam, I.
Land reclamation of oil sands disturbed boreal forests in Alberta is a challenging task facing companies with surface mine leases. The government requires reclamation to equivalent land capability, which is a vague statement at best. Agronomic theories and methodologies have been applied in the...
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2013-12-05
Gould, K., Wood, S., Smreciu, A.
Species profile for Castilleja miniata: common red paintbrush, giant red Indian paintbrush, scarlet paintbrush
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2013-12-06
Gould, K., Smreciu, A., Wood, S.
Species profile for Castilleja raupii: purple paintbrush, Raup’s Indian paintbrush
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2012-05-31
Mian, H., Currie, R., Zhao, B.
The purpose of this report is to identify challenges in analyzing naphthenic acids (NAs) associated with oil sands process water (OSPW). Naphthenic acids are present naturally in oil sands bitumen and have the classical formula CnH2n+ZO2. Within this formula n represents the carbon number and Z...
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Catalogue of Technologies for Reducing the Environmental Impact of Fine Tailings from Oil Sands Processing
Download1993
Rose, D. E., Taplin, D., Fuhr, B. J.
A catalogue containing 22 technologies for reducing the environmental impact of fine tailings derived from oil sand processing has been assembled. The simple format which was developed as part of this study consisted of a spreadsheet outline of the technologies and a process summary for each...
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2014-01-06
Smreciu, A., Wood, S., Gould, K.
Revegetation species profile for Chamerion angustifolium: fireweed, great willow-herb
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Characterization of organic constituents in waters and wastewaters of the Athabasca oil sands mining area
Download1978
The organic constituents of wastewaters discharged from the Great Canadian Oil Sands Ltd. (GCOS) plant and the Syncrude Canada Ltd. lease No. 17 were characterized and compared to those occurring naturally in the Athabasca River. Of the 16 chemical groups investigated in samples of upgrading...
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1980
Kong, K., Lindsay, J. D., McGill, W. B.
Properties of stored peat were studied at sites near Evansburg, Alberta, and on the lease of Syncrude Canada Ltd. at Mildred Lake, Alberta. Physical, chemical, and microbiological properties of stored materials were compared with those of fibric moss peat, mesic moss peat, and mesic fen peat...
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Characterizing the Organic Composition of Snow and Surface Water Across the Athabasca Region: Phase 2
Download2014-12-15
Gibson, J., Birks, J., Cho, S., Taylor, E., Yi, Y.
This study was conducted to characterize the composition of polar dissolved organic compounds present in snow and surface waters in the Athabasca Oil Sands Region (AOSR) with the goal of identifying whether atmospherically-derived organics present in snow are an important contributor to the...