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Skip to Search Results- 10Renewable Resources, Department of
- 7Renewable Resources, Department of/Journal Articles (Renewable Resources)
- 6Oil Sands Research and Information Network (OSRIN)
- 3Renewable Resources, Department of/Synthesis Reports (Renewable Resources)
- 3Oil Sands Research and Information Network (OSRIN)/OSRIN Technical Reports
- 3Oil Sands Research and Information Network (OSRIN)/Other Technical Reports (OSRIN)
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2013-02-15
In a short period of time, the conversation around handling woody materials – deadwood such as logs, branches and stumps – has shifted dramatically. From piling and burning, to mulching and now towards keeping ‘whole logs’ on sites. The changes have led to confusion and this guide is intended to...
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2000
Mapfumo, E., Chanasyk, D.S., Burk, A.R.
Land management practices are known to influence runoff through alteration of the antecedent soil water For accurate estimation of runoff, direct measurement of antecedent soil water would be necessary. This study investigated antecedent soil water and the potential for summer storm runoff under...
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2014-03-28
Oil Sands Tailings Dam Committee
Some of the oil sands tailings dams, licensed under the Alberta dam safety regulations, have reached the end of their service life and under a responsible environmental stewardship should be closed and reclaimed. The path to closure and reclamation requires de-licensing of these structures,...
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2013
Gardner Costa, J.M., Daly, c., Kovalenko, K.E., Dixon, D.G., Ciborowski, J.J.H., Slama, C.A., Kennedy, K., Foote, A.L., Liber, K., Smits, J.E.G., Frederick, K.R., Roy, M.C., Farwell, A.J.
Boreal wetlands play an important role in global carbon balance. However, their ecosystem function is threatened by direct anthropogenic disturbance and climate change. Oil sands surface mining in the boreal regions of Western Canada denudes tracts of land of organic materials, leaves large areas...
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GHG Emissions from Oil Sands Tailings Ponds: Overview and Modelling Based on Fermentable Substrates
Download2014-11-28
Burkus, Z., Pletcher, S., Wheler, J.
Surface mining of Alberta bitumen is probably the biggest mining operation in the world. It has a significant environmental footprint with about 840 km2 total active footprint in 2012 and 895 km2 in 2013 (Fig 1) (AESRD 2014). Of this area, tailings ponds covered 239.3 km2 in 2013...
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2020-01-08
Wen-Qing Zhang, Killian Fleurial, Ira Sherr, Robert Vassov, Janusz J. Zwiazek
Bitumen recovery from oil sands in northeastern Alberta, Canada produces large volumes of tailings, which are deposited in mining areas that must be reclaimed upon mine closure. A new technology of non-segregated tailings (NST) developed by Canadian Natural Resources Limited (CNRL) was designed...
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2012
For much of the history of Alberta’s tar sands, a series of visual conventions have shaped Canadian imaginaries of the resource, the emergence of the non-conventional oil industry, and the mining of oil. We introduce a series of archival images dating from 1880 until the opening of Great Canadian...
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2013
Naeth, M.A., Cohen-Fernandez, A.C.
Environmental sustainability of post mined limestone quarries often requires reclamation to a diverse woody plant community. Woody species diversity may be severely limited if only nursery stock is relied on for propagation material; thus other sources must be evaluated. To address woody species...
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2013-06-20
Naeth, M.A., Wilkinson, S.R., Powter, C.B., Archibald, H.A., Mackenzie, D.D.
LFH salvaged with small amounts of upper horizon mineral soil for land reclamation (hereafter LFH mineral soil mix) has proven to be an important source of seeds and vegetative propagules for forest plant communities. Until recently in Canada, LFH mineral soil mix was not selectively salvaged...