Salinity Effects on Dissolved Organic Carbon Concentration and Quality in a Constructed Fen Peatland, Fort McMurray, AB
In northern Alberta, oil sands mining disturbs the landscape; reclamation to an “equivalent land capability” is required, and industry is testing peatland construction as part of landscape reclamation. To determine if these constructed peatlands can be self-sustaining, an understanding of the cyclin...
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| Format: | Master Thesis |
| Language: | English |
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University of Waterloo
2020
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| Online Access: | http://hdl.handle.net/10012/16096 |
| _version_ | 1821515804981592064 |
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| author | Prystupa, Emily |
| author_facet | Prystupa, Emily |
| author_sort | Prystupa, Emily |
| collection | University of Waterloo, Canada: Institutional Repository |
| description | In northern Alberta, oil sands mining disturbs the landscape; reclamation to an “equivalent land capability” is required, and industry is testing peatland construction as part of landscape reclamation. To determine if these constructed peatlands can be self-sustaining, an understanding of the cycling of solutes in peat pore water and their interactions with dissolved organic carbon (DOC) is needed. DOC is a component of pore water that is of interest due to its biotic relevance and its impact as a component of the carbon budget. Additionally, salinity as a control on DOC quantity and quality may be important in reclaimed systems due to the likelihood of elevated sodium (Na+) from saline groundwater input derived from the tailings used to construct reclaimed catchments. As part of post-mining oil sands reclamation, a pilot fen (Constructed Fen) was constructed to test reclamation techniques for peatland establishment. Previously, DOC in the Constructed Fen was found to be largely internally produced, suggesting rhizodeposition, decomposition and solubility govern DOC dynamics. For this research DOC concentration and quality, and Na+ concentration were measured in the rooting zone of the Constructed Fen to evaluate the role of Na+ in DOC dynamics. DOC concentration and quality throughout the fen revealed that DOC was largely sourced from vegetation inputs. Increases in vegetative inputs between years was indicated by the annual increase in DOC lability. Elevated Na+ at 30 cm below ground surface (bgs) corresponded with high concentrations of labile DOC. This relationship suggests increased rhizodeposition contributing labile carbon to DOC and decreased decomposition preserving labile DOC. At 10 cm bgs, spatial variability and temperature were the largest predictors of DOC quantity and quality. With expected increases in Na+ at this site, increased production of a mobile and microbially active fraction of DOC may lead to higher rates of carbon export. Due to the identification of rhizodeposition as a potential ... |
| format | Master Thesis |
| genre | Fort McMurray |
| genre_facet | Fort McMurray |
| geographic | Fort McMurray |
| geographic_facet | Fort McMurray |
| id | ftunivwaterloo:oai:uwspace.uwaterloo.ca:10012/16096 |
| institution | Open Polar |
| language | English |
| op_collection_id | ftunivwaterloo |
| op_relation | http://hdl.handle.net/10012/16096 |
| publishDate | 2020 |
| publisher | University of Waterloo |
| record_format | openpolar |
| spelling | ftunivwaterloo:oai:uwspace.uwaterloo.ca:10012/16096 2025-01-16T21:57:38+00:00 Salinity Effects on Dissolved Organic Carbon Concentration and Quality in a Constructed Fen Peatland, Fort McMurray, AB Prystupa, Emily 2020-06-30 http://hdl.handle.net/10012/16096 en eng University of Waterloo http://hdl.handle.net/10012/16096 Reclamation Peatland Salinity DOC Master Thesis 2020 ftunivwaterloo 2022-06-18T23:02:57Z In northern Alberta, oil sands mining disturbs the landscape; reclamation to an “equivalent land capability” is required, and industry is testing peatland construction as part of landscape reclamation. To determine if these constructed peatlands can be self-sustaining, an understanding of the cycling of solutes in peat pore water and their interactions with dissolved organic carbon (DOC) is needed. DOC is a component of pore water that is of interest due to its biotic relevance and its impact as a component of the carbon budget. Additionally, salinity as a control on DOC quantity and quality may be important in reclaimed systems due to the likelihood of elevated sodium (Na+) from saline groundwater input derived from the tailings used to construct reclaimed catchments. As part of post-mining oil sands reclamation, a pilot fen (Constructed Fen) was constructed to test reclamation techniques for peatland establishment. Previously, DOC in the Constructed Fen was found to be largely internally produced, suggesting rhizodeposition, decomposition and solubility govern DOC dynamics. For this research DOC concentration and quality, and Na+ concentration were measured in the rooting zone of the Constructed Fen to evaluate the role of Na+ in DOC dynamics. DOC concentration and quality throughout the fen revealed that DOC was largely sourced from vegetation inputs. Increases in vegetative inputs between years was indicated by the annual increase in DOC lability. Elevated Na+ at 30 cm below ground surface (bgs) corresponded with high concentrations of labile DOC. This relationship suggests increased rhizodeposition contributing labile carbon to DOC and decreased decomposition preserving labile DOC. At 10 cm bgs, spatial variability and temperature were the largest predictors of DOC quantity and quality. With expected increases in Na+ at this site, increased production of a mobile and microbially active fraction of DOC may lead to higher rates of carbon export. Due to the identification of rhizodeposition as a potential ... Master Thesis Fort McMurray University of Waterloo, Canada: Institutional Repository Fort McMurray |
| spellingShingle | Reclamation Peatland Salinity DOC Prystupa, Emily Salinity Effects on Dissolved Organic Carbon Concentration and Quality in a Constructed Fen Peatland, Fort McMurray, AB |
| title | Salinity Effects on Dissolved Organic Carbon Concentration and Quality in a Constructed Fen Peatland, Fort McMurray, AB |
| title_full | Salinity Effects on Dissolved Organic Carbon Concentration and Quality in a Constructed Fen Peatland, Fort McMurray, AB |
| title_fullStr | Salinity Effects on Dissolved Organic Carbon Concentration and Quality in a Constructed Fen Peatland, Fort McMurray, AB |
| title_full_unstemmed | Salinity Effects on Dissolved Organic Carbon Concentration and Quality in a Constructed Fen Peatland, Fort McMurray, AB |
| title_short | Salinity Effects on Dissolved Organic Carbon Concentration and Quality in a Constructed Fen Peatland, Fort McMurray, AB |
| title_sort | salinity effects on dissolved organic carbon concentration and quality in a constructed fen peatland, fort mcmurray, ab |
| topic | Reclamation Peatland Salinity DOC |
| topic_facet | Reclamation Peatland Salinity DOC |
| url | http://hdl.handle.net/10012/16096 |