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1980
This report documents locations of Athabasca Oil Sands area water quality sampling sites; sampling, analytical and quality control methods used; the volume and availability of assembled data; and an extensive appraisal of the quality of the data base. The quality control measures taken proved to...
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Aquatic biophysical inventory of major tributaries in the AOSERP study area. Volume I: Summary report
Download1980
This report summarizes and compares the physical characteristics of nine streams within five watersheds (Firebag, Muskeg, Steepbank, MacKay, and Ells) in the AOSERP study area. The distributions and relative abundances of fish in each stream and watershed are also described and related to the...
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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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Water quality of the Athabasca oil sands area: Volume IV - an interim compilation of non-AOSERP water quality data
Download1981
Akena, A. M., Christian, L. L.
Studies of the water quality of the Athabasca Oil Sands area (Figures 1 and 2) streams, rivers, and lakes have been conducted by numerous organizations and government agencies since the 1950’s. The earlier studies involved efforts by provincial and federal government departments interested in...
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1982
Yau, H., Timpany, P. L., Murphy, K. L.
The present and proposed industrial development associated with the Athabasca Oil Sands has resulted in a need to evaluate the Athabasca River transport and assimilation of contaminants and water occurring substances. Since the beginning of AOSERP in April 1975, water quality and quantity data...
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1985
The objective of this report is to summarize water quality constituents in the AOSERP study area and to examine relationships between these constituents and changes in land formation, hydrology, and development. Summaries of routine parameters, nutrients, and metals are presented for sampling...
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1985
Corkum, L., Thompson, M. V., Hamilton, H. R.
This report overviews major water quality patterns and trends for the Athabasca River and its major tributaries. In doing so it compares water quality data with surface water quality objectives, identifies spatial and temporal patterns, defines major factors affecting water quality,...
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1992
MacDonald, G., Radermacher, A.
The calibrated DOSTOC, NUSTOC and UNSTOC models from 1989 were used effectively to simulate measured 1990 Athabasca River water quality. Changes in effluent loadings at the two pulp mills and an increase in river flows in the lower Athabasca Basin accounted for some noticeable improvements in...
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2010-11-15
Kotecha, P., Aumann, C., Godwalt, C.
The Oil Sands Leadership Initiative (OSLI) is a collaboration of five progressive oil sands operators (ConocoPhillips Canada, Nexen Inc., Statoil Canada, Suncor Energy Inc. and Total E&P Canada), with the Government of Alberta participating as an observer, working to advance the development of...
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Isotopic and Geochemical Tracers for Fingerprinting Process-Affected Waters in the Oil Sands Industry: A Pilot Study
Download2011-04-04
Jasechko, K., Gibson, J.J., Moncur, M., Birks, S.J., Tattrie, S., Yi, Y., Eby, P., Richardson, K.
A pilot study was conducted by Alberta Innovates – Technology Futures during 2009 and 2010 to assess potential for labelling process-affected water from oil sands operations using a suite of isotopic and geochemical tracers, including inorganic and organic compounds in water. The study was...