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Skip to Search Results- 4Bond, W. A.
- 4Peake, E.
- 3Alberta Health, Environmental Health Services Division
- 3Byrtus, G.
- 3Charlton, S. E. D.
- 3Hickman, M.
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1987
Taylor, B., Hamilton, H., Westlake, D., Wallace, R., Foght, J., Hrudey, S.
This report investigates the relationship between certain hydrocarbons that are present naturally, or could be introduced due to surface oil sands mining and upgrading activities, and their potential bioaccumulation and tainting of the commercial fishery in the Athabasca River. This includes...
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1980
Haufe, W. O., Croome, G. C. R.
The program was designed from feasibility studies to develop and evaluate chemical control of S. arcticum in the Athabasca River. This appeared to be the most immediately achievable and economically practical approach to prevention of severe pest outbreaks and to reduction of farm losses in...
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Inventory of water use requirements and effluent discharge characteristics related to oil sands development
Download1980
An inventory of historical data on water use requirements and effluent discharge characteristics related to oil sands developments has been collected and tabulated. The inventory data indicate that surface water bodies are the main sources of the water supply and main recipients of effluent. ...
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Acute lethality of mine depressurization water to trout-perch (Percopsis omiscomaycus) and rainbow trout (Salmo gairdneri) Volume I
Download1979
Mine depressurization water obtained from five wells on Lease 17 held by Syncrude Canada Limited, was examined for chemical composition and acute toxicity to two species of fish. In the first series of experiments, mine depressurization water was diluted with various proportions of water...
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1979
The epilithic microbial and micro-invertebrate communities under conditions of light and shade were studied from April to November 1978. During a period of increasing light intensity from May to June, the level of chlorophyll a (an algal biomass indicator) and numbers of Bacillariophyta in the...
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1969
Alberta Health, Environmental Health Services Division
The Athabasca River serves as a source of water supply and a receiving stream for the wastes of two major industries and several communities. This report presents the summary of water quality in the Athabasca River during six sampling surveys (including a site at Fort McMurray, Tar Island, above...
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1976-01-01
Organic constituents of wastewaters from the existing Athabasca oil sands extraction plant were characterized and quantified. Twenty-one chemical parameters were determined on a total of ten samples taken during November and December, 1975 from the tailings pond dike filter drainage system, the...
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Acute lethality of mine depressurization water to trout-perch (Percopsis omiscomaycus) and rainbow trout (Salmo gairdneri) Volume II
Download1979
Volume 2 In order to conduct oil sands mining operations in the surface mining region of the Athabasca oil sands deposits, most regions require depressurization of the basal sandstone formations. The groundwater produced by depressurization operations is of poor enough quality to be toxic to...
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Heavy metal dynamics in the Athabasca River: Sediment concentrations prior to major Alberta oil sands development
Download1977
Exploitation of the bituminous sands may elevate heavy metal levels in the sediments of drainage systems of the AOSERP area via waterborne or airborne emissions. One hundred and six dredged sediments and twenty-four sediment cores were collected from the Athabasca River system from just above...
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1983
Hickman, M., Charlton, S. E. D., Jenkerson, C. G.
Studies concentrating upon the epilithic algal community were conducted in five tributary rivers flowing into the Athabasca river: the Muskeg, Steepbank, Hangingstone, MacKay, and Ells rivers. Numerically, cyanophycean algae (Lyngbya aerugineo-caerulea, Phormidium sp., Calothris braunii, Nostoc...