Seasonal Cycling in Electrical Resistivities at Ten Thin Permafrost Sites, Southern Yukon and Northern British Columbia
Permanent electrode arrays were set up at ten monitoring sites from Whitehorse, Yukon, to Fort St. John, British Columbia, in order to gain a clearer perspective of the effectiveness of electrical resistivity tomography (ERT) monitoring over an annual cycle of freezing and thawing. This research for...
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| Format: | Thesis |
| Language: | English |
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2012
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| Online Access: | http://hdl.handle.net/10393/23463 |
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ftcanadathes:oai:collectionscanada.gc.ca:OOU.#10393/23463 |
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ftcanadathes:oai:collectionscanada.gc.ca:OOU.#10393/23463 2023-05-15T17:55:22+02:00 Seasonal Cycling in Electrical Resistivities at Ten Thin Permafrost Sites, Southern Yukon and Northern British Columbia Miceli, Christina 2012-10-26T14:18:19Z http://hdl.handle.net/10393/23463 en eng http://hdl.handle.net/10393/23463 Permafrost Electrical Resistivity Tomography Yukon British Columbia Thèse / Thesis 2012 ftcanadathes 2014-06-14T23:47:03Z Permanent electrode arrays were set up at ten monitoring sites from Whitehorse, Yukon, to Fort St. John, British Columbia, in order to gain a clearer perspective of the effectiveness of electrical resistivity tomography (ERT) monitoring over an annual cycle of freezing and thawing. This research forms part of a longer-term project that is attempting to use ERT to examine changes in permafrost resulting from climate change. Inter-site and intra-site variability were examined by installing and maintaining data-loggers to monitor active layer and shallow permafrost temperatures, air temperatures, and snow depths at each site from August 2010 – August 2011. Additional site information was collected on each ERT survey date, including frost table depths, snow depths, and vegetation heights. Based on nearby community records, the climate in the region has been warming by a rate of 0.3 to 0.5 °C per decade since 1970. The permafrost at all ten sites was characteristic of sporadic discontinuous and isolated patches permafrost zones, and is classified as Ecosystem-protected. Nine of the ten permafrost sites had permafrost that was thinner than the 14 or 7 m penetration depth of the ERT survey (three-layer system consisting of an active layer, permafrost, and sub-permafrost perennially unfrozen zone). The most predictable results were achieved at the two-layer system site (active layer overlying permafrost to the base of the profile) in each of its virtual resistivity boreholes, relative resistivity change comparisons, and mean near-surface apparent resistivity progressions. ERT is an effective method of delineating permafrost boundaries in thin permafrost environments and does show strength when monitoring areas of seasonally frozen ground. Repeat surveys at a site indicate seasonal changes in three-layer conditions, but not as predictably as those in a two-layer system. In order to receive the most accurate information regarding permafrost extent and thickness, it appears ideal to conduct ERT surveys annually, within the same month as the previous year’s survey. Thesis permafrost Whitehorse Yukon Theses Canada/Thèses Canada (Library and Archives Canada) Fort St. John ENVELOPE(-120.837,-120.837,56.244,56.244) Yukon |
| institution |
Open Polar |
| collection |
Theses Canada/Thèses Canada (Library and Archives Canada) |
| op_collection_id |
ftcanadathes |
| language |
English |
| topic |
Permafrost Electrical Resistivity Tomography Yukon British Columbia |
| spellingShingle |
Permafrost Electrical Resistivity Tomography Yukon British Columbia Miceli, Christina Seasonal Cycling in Electrical Resistivities at Ten Thin Permafrost Sites, Southern Yukon and Northern British Columbia |
| topic_facet |
Permafrost Electrical Resistivity Tomography Yukon British Columbia |
| description |
Permanent electrode arrays were set up at ten monitoring sites from Whitehorse, Yukon, to Fort St. John, British Columbia, in order to gain a clearer perspective of the effectiveness of electrical resistivity tomography (ERT) monitoring over an annual cycle of freezing and thawing. This research forms part of a longer-term project that is attempting to use ERT to examine changes in permafrost resulting from climate change. Inter-site and intra-site variability were examined by installing and maintaining data-loggers to monitor active layer and shallow permafrost temperatures, air temperatures, and snow depths at each site from August 2010 – August 2011. Additional site information was collected on each ERT survey date, including frost table depths, snow depths, and vegetation heights. Based on nearby community records, the climate in the region has been warming by a rate of 0.3 to 0.5 °C per decade since 1970. The permafrost at all ten sites was characteristic of sporadic discontinuous and isolated patches permafrost zones, and is classified as Ecosystem-protected. Nine of the ten permafrost sites had permafrost that was thinner than the 14 or 7 m penetration depth of the ERT survey (three-layer system consisting of an active layer, permafrost, and sub-permafrost perennially unfrozen zone). The most predictable results were achieved at the two-layer system site (active layer overlying permafrost to the base of the profile) in each of its virtual resistivity boreholes, relative resistivity change comparisons, and mean near-surface apparent resistivity progressions. ERT is an effective method of delineating permafrost boundaries in thin permafrost environments and does show strength when monitoring areas of seasonally frozen ground. Repeat surveys at a site indicate seasonal changes in three-layer conditions, but not as predictably as those in a two-layer system. In order to receive the most accurate information regarding permafrost extent and thickness, it appears ideal to conduct ERT surveys annually, within the same month as the previous year’s survey. |
| format |
Thesis |
| author |
Miceli, Christina |
| author_facet |
Miceli, Christina |
| author_sort |
Miceli, Christina |
| title |
Seasonal Cycling in Electrical Resistivities at Ten Thin Permafrost Sites, Southern Yukon and Northern British Columbia |
| title_short |
Seasonal Cycling in Electrical Resistivities at Ten Thin Permafrost Sites, Southern Yukon and Northern British Columbia |
| title_full |
Seasonal Cycling in Electrical Resistivities at Ten Thin Permafrost Sites, Southern Yukon and Northern British Columbia |
| title_fullStr |
Seasonal Cycling in Electrical Resistivities at Ten Thin Permafrost Sites, Southern Yukon and Northern British Columbia |
| title_full_unstemmed |
Seasonal Cycling in Electrical Resistivities at Ten Thin Permafrost Sites, Southern Yukon and Northern British Columbia |
| title_sort |
seasonal cycling in electrical resistivities at ten thin permafrost sites, southern yukon and northern british columbia |
| publishDate |
2012 |
| url |
http://hdl.handle.net/10393/23463 |
| long_lat |
ENVELOPE(-120.837,-120.837,56.244,56.244) |
| geographic |
Fort St. John Yukon |
| geographic_facet |
Fort St. John Yukon |
| genre |
permafrost Whitehorse Yukon |
| genre_facet |
permafrost Whitehorse Yukon |
| op_relation |
http://hdl.handle.net/10393/23463 |
| _version_ |
1766163291411841024 |