Carbon fluxes from high-centred polygonal terrain in the Northwest Territories
Northern regions account for approximately 30% (1035 Pg) of the world’s soil organic carbon (SOC). Much of this carbon is currently stored in permafrost soils, which are vulnerable to increasing air and ground temperatures. Permafrost landscapes rich in ground ice, such as high-centred polygonal ter...
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2015
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| Online Access: | http://hdl.handle.net/1828/6985 |
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ftuvicpubl:oai:dspace.library.uvic.ca:1828/6985 |
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ftuvicpubl:oai:dspace.library.uvic.ca:1828/6985 2023-05-15T16:36:57+02:00 Carbon fluxes from high-centred polygonal terrain in the Northwest Territories Martin, Abra Frances Lantz, Trevor Charles 2015 application/pdf http://hdl.handle.net/1828/6985 English en eng http://hdl.handle.net/1828/6985 Available to the World Wide Web carbon dioxide methane permafrost thermokarst Thesis 2015 ftuvicpubl 2022-05-19T06:12:11Z Northern regions account for approximately 30% (1035 Pg) of the world’s soil organic carbon (SOC). Much of this carbon is currently stored in permafrost soils, which are vulnerable to increasing air and ground temperatures. Permafrost landscapes rich in ground ice, such as high-centred polygonal terrain, are likely to be highly vulnerable to thaw. Degradation of ice wedges in high-centred polygonal terrain causes increased moisture and ground temperatures. These environmental controls are likely to have a large impact on carbon cycling in this terrain type. My M.Sc. research combined both lab and field-based analyses to investigate current and potential carbon emissions from high-centred polygonal terrain in the Tuktoyaktuk Coastlands. To estimate the magnitude of future emissions from this terrain type I incubated six permafrost cores collected at two sites. Peat cores from four depths were each incubated under four conditions (cold anaerobic, warm anaerobic, cold aerobic, warm aerobic). The observation that carbon mineralization rates do not vary with depth demonstrates that the soil carbon liberated from permafrost in high-centred polygonal terrain will not be limited by SOC quality. This experiment also shows that emission rates will be moderated by temperature and moisture levels, and will be primarily in the form of CO2. To examine the impact of ice-wedge thaw on carbon emissions in high-centred polygonal terrain, we combined opaque chamber measurements of flux and estimates made from water samples using a gas diffusion model. Field sampling at two sites contrasted carbon emissions from polygon centres (n=18), wet troughs (n=18) and ponds (n=20). We also measured ground temperature and soil moisture using thermistors and a moisture sensor. Our field results demonstrate that ice-wedge degradation results in increased ground temperature, deeper active layers, and increased CO2 and CH4 emissions. Contrary to our expectations, CO2 emissions were not limited by waterlogged conditions, demonstrating the ... Thesis Ice Northwest Territories permafrost Thermokarst Tuktoyaktuk wedge* University of Victoria (Canada): UVicDSpace Northwest Territories Tuktoyaktuk ENVELOPE(-133.006,-133.006,69.425,69.425) |
| institution |
Open Polar |
| collection |
University of Victoria (Canada): UVicDSpace |
| op_collection_id |
ftuvicpubl |
| language |
English |
| topic |
carbon dioxide methane permafrost thermokarst |
| spellingShingle |
carbon dioxide methane permafrost thermokarst Martin, Abra Frances Carbon fluxes from high-centred polygonal terrain in the Northwest Territories |
| topic_facet |
carbon dioxide methane permafrost thermokarst |
| description |
Northern regions account for approximately 30% (1035 Pg) of the world’s soil organic carbon (SOC). Much of this carbon is currently stored in permafrost soils, which are vulnerable to increasing air and ground temperatures. Permafrost landscapes rich in ground ice, such as high-centred polygonal terrain, are likely to be highly vulnerable to thaw. Degradation of ice wedges in high-centred polygonal terrain causes increased moisture and ground temperatures. These environmental controls are likely to have a large impact on carbon cycling in this terrain type. My M.Sc. research combined both lab and field-based analyses to investigate current and potential carbon emissions from high-centred polygonal terrain in the Tuktoyaktuk Coastlands. To estimate the magnitude of future emissions from this terrain type I incubated six permafrost cores collected at two sites. Peat cores from four depths were each incubated under four conditions (cold anaerobic, warm anaerobic, cold aerobic, warm aerobic). The observation that carbon mineralization rates do not vary with depth demonstrates that the soil carbon liberated from permafrost in high-centred polygonal terrain will not be limited by SOC quality. This experiment also shows that emission rates will be moderated by temperature and moisture levels, and will be primarily in the form of CO2. To examine the impact of ice-wedge thaw on carbon emissions in high-centred polygonal terrain, we combined opaque chamber measurements of flux and estimates made from water samples using a gas diffusion model. Field sampling at two sites contrasted carbon emissions from polygon centres (n=18), wet troughs (n=18) and ponds (n=20). We also measured ground temperature and soil moisture using thermistors and a moisture sensor. Our field results demonstrate that ice-wedge degradation results in increased ground temperature, deeper active layers, and increased CO2 and CH4 emissions. Contrary to our expectations, CO2 emissions were not limited by waterlogged conditions, demonstrating the ... |
| author2 |
Lantz, Trevor Charles |
| format |
Thesis |
| author |
Martin, Abra Frances |
| author_facet |
Martin, Abra Frances |
| author_sort |
Martin, Abra Frances |
| title |
Carbon fluxes from high-centred polygonal terrain in the Northwest Territories |
| title_short |
Carbon fluxes from high-centred polygonal terrain in the Northwest Territories |
| title_full |
Carbon fluxes from high-centred polygonal terrain in the Northwest Territories |
| title_fullStr |
Carbon fluxes from high-centred polygonal terrain in the Northwest Territories |
| title_full_unstemmed |
Carbon fluxes from high-centred polygonal terrain in the Northwest Territories |
| title_sort |
carbon fluxes from high-centred polygonal terrain in the northwest territories |
| publishDate |
2015 |
| url |
http://hdl.handle.net/1828/6985 |
| long_lat |
ENVELOPE(-133.006,-133.006,69.425,69.425) |
| geographic |
Northwest Territories Tuktoyaktuk |
| geographic_facet |
Northwest Territories Tuktoyaktuk |
| genre |
Ice Northwest Territories permafrost Thermokarst Tuktoyaktuk wedge* |
| genre_facet |
Ice Northwest Territories permafrost Thermokarst Tuktoyaktuk wedge* |
| op_relation |
http://hdl.handle.net/1828/6985 |
| op_rights |
Available to the World Wide Web |
| _version_ |
1766027268612685824 |