Tracing industrial emissions in the Athabasca oil sands region using stable isotope techniques

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dc.contributor.advisorMayer, Bernhard
dc.contributor.authorProemse, Bernadette Cacilie
dc.date.accessioned2017-12-18T22:31:25Z
dc.date.available2017-12-18T22:31:25Z
dc.date.issued2012
dc.descriptionBibliography: p. 228-264en
dc.descriptionSome pages are in colour.en
dc.description.abstractThe Athabasca oil sands region (A0SR) in northeastern Alberta, Canada, is one of the world's largest oil reservoirs. Its heavy oil will become increasingly important as conventional energy resources decline. Due to the rapid industrial development in the A0SR, there have been increasing concerns about the impact of the emissions from the oil sands operations on the surrounding terrestrial and aquatic ecosystems. Stable isotope techniques may help to assess such impact provided that industrial emissions are isotopically distinct from background components. In order to trace nitrogen (N), sulfur (S) and molybdenum (Mo) emissions released by the oil sands industry, chemical and isotopic compositions of various N, S and Mo compounds in emissions and several environmental receptors were determined. Industrial N and S04 emissions were found to be isotopically distinct. 8 180 and ?? 170 of atmospheric nitrate deposition and 8180 values of atmospheric sulfate deposition showed trends towards lower values with increasing nitrate and sulfate deposition rates allowing for the quantification of industrial contributions to atmospheric nitrate and sulfate deposition in the A0SR (quantitative tracers). Lichens responded to elevated N and S deposition in close proximity to the oil sands operations, whereas chemical and isotopic compositions of N and S in pine needles showed no significant industrial impact. 15 8 N values of industrial emissions provide a qualitative tracer of industrial N emissions 34 in atmospheric ammonium deposition, lichen samples and soil water. 8 S values in atmospheric sulfate deposition and total S in lichen samples were indicative of emissions of reduced sulfur compounds, likely from tailing ponds. Different sample preparation techniques were tested for the analyses of 898195Mo. Results of Mo concentration and isotope ratio analyses on snow, air filter samples and fly ash samples from a coal-fired power plant suggest that industrial activities are associated with an increase in Mo concentrations and with Mo isotope fractionation, providing a potential new tracer for industrial activities in the AOSR. In summary, quantitative and qualitative tracers revealed that impact of industrial emissions on the surrounding environment in the AOSR were limited to 30 km distance to one of the major emission stacks.
dc.format.extentxviii, 279 leaves : ill. ; 30 cm.en
dc.identifier.citationProemse, B. C. (2012). Tracing industrial emissions in the Athabasca oil sands region using stable isotope techniques (Doctoral thesis, University of Calgary, Calgary, Canada). Retrieved from https://prism.ucalgary.ca. doi:10.11575/PRISM/4755en_US
dc.identifier.doihttp://dx.doi.org/10.11575/PRISM/4755
dc.identifier.urihttp://hdl.handle.net/1880/105756
dc.language.isoeng
dc.publisher.institutionUniversity of Calgaryen
dc.publisher.placeCalgaryen
dc.rightsUniversity of Calgary graduate students retain copyright ownership and moral rights for their thesis. You may use this material in any way that is permitted by the Copyright Act or through licensing that has been assigned to the document. For uses that are not allowable under copyright legislation or licensing, you are required to seek permission.
dc.titleTracing industrial emissions in the Athabasca oil sands region using stable isotope techniques
dc.typedoctoral thesis
thesis.degree.disciplineGeoscience
thesis.degree.grantorUniversity of Calgary
thesis.degree.nameDoctor of Philosophy (PhD)
ucalgary.item.requestcopytrue
ucalgary.thesis.accessionTheses Collection 58.002:Box 2093 627942965
ucalgary.thesis.notesUARCen
ucalgary.thesis.uarcreleaseyen
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