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Skip to Search Results- 640Oil Sands Research and Information Network (OSRIN)
- 222Oil Sands Research and Information Network (OSRIN)/AOSERP Reports
- 113Oil Sands Research and Information Network (OSRIN)/Government of Alberta Reports
- 100Oil Sands Research and Information Network (OSRIN)/Revegetation Species Profiles
- 73Oil Sands Research and Information Network (OSRIN)/OSRIN Technical Reports
- 63Oil Sands Research and Information Network (OSRIN)/Syncrude Canada Ltd. Reports
- 103Smreciu, A.
- 101Gould, K.
- 101Wood, S.
- 14OSRIN
- 11Syncrude Canada Ltd.
- 10Oil Sands Research and Information Network
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1999
Northern River Basins Human Health Monitoring Program Management Committee
The Human Health Monitoring Program (HHMP) was initiated in 1994 to collect information relating to human health and the environment within northern Alberta. The Program was launched following a request by the Northern River Basins Study, a $12 million federal/provincial study which conducted...
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1980
Brawn, G., Collins, J., Marino, M. L.
While many benefits can result from development of the Athabasca Oil Sands deposits, the associated technological and industrial growth has altered both the physical and social environment in the region. Research in the Human System of Alberta Oil Sands Environmental Research Program is designed...
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Human system Alberta oil sands environmental research program 1975-1980: An integration and synthesis of research results
Download1983
Commercial exploitation of the Athabasca oil sands deposit had transformed Fort McMurray between 1961 and 1980, from a a small and remote northern community of 1200 people into Alberta's eighth largest city with 27 000 residents. This research project was to describe, ananlyse, and interpret the...
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2014-11-05
Iqbal, M., Gamal El-Din, M., Aghajamali, M., Veinot, J.G.C., Purkait, T.K., Goss, G.G., Hadidi, L.
There are many candidate technologies that could be applied to the treatment of oil sands process-affected water (OSPW). Advanced oxidation processes (AOPs) are particularly useful for degrading biologically toxic or non-degradable materials such as aromatics, pesticides, petroleum constituents,...
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1980
Detailed studies of groundwater-surface water systems in Hartley Creek basin show the creek to be at baseflow for only a few months in the winter when other contributions to streamflow are negligible. Following spring snowmelt, drainage of muskeg is the major contributor to streamflow along with...
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1983
Hydrotechnical research in the Alberta Oil Sands has been oriented toward establishment of baseline (i.e. pre-development) environmental conditions and identification of contaminant transport mechanisms. Monitoring networks for both groundwaters and surface waters are in place and both water...
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1982
Addison, P. A., Theriault, F., L'Hirondelle, S., Khan, A. A.
This report describes both the accomplishments to date and the long-term plans of the joint project between the Toxic Substances Program of the Canadian Forestry Service and the Research Management Division of Alberta Environment. No evidence of impact on jack pine physiology was found when...
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2012-06-21
Environmental requirements for oil sands operations have increased over time and are likely to continue to do so. Oil sands operators are responsible for the costs associated with meeting environmental requirements prescribed by the government. However, the province’s oil sands royalty regime...
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1992
The flotation technique was used to segregate non-viable from viable Siberian larch (Larix Sibirica Ledeb.) seeds using water as the floating media. The non-viable seeds floated while the viable ones sank. Without stratification, the average percent germination of the floating and sunken seeds...
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1988
The heavy oils produced from the Alberta oil sands contain cyclic organic compounds together with sulphur and nitrogen. Upon thermal treatment they have the potential to form carcinogenic, mutagenic, and toxic compounds. Recovery of oil by in-situ combustion processes, such as the Combination of...