Fertility of frost boils and the effect of diapirism on plant nitrogen uptake in a polar desert ecosystem of the Canadian High Arctic
Polar desert environments are limiting in plant available nutrients, mainly nitrogen (N) and phosphorus (P) that severely limit plant growth and establishment. Cryogenic activity regularly patterns the ground into a patchwork of frost boils – sorted circles that are associated with an increase in mo...
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| Other Authors: | , , |
| Format: | Thesis |
| Language: | English |
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2016
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| Online Access: | http://hdl.handle.net/10388/ETD-2016-02-2431 |
| _version_ | 1829947976797126656 |
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| author | Hardy, Sarah |
| author2 | Siciliano, Steven Lamb, Eric Van Rees, Ken |
| author_facet | Hardy, Sarah |
| author_sort | Hardy, Sarah |
| collection | University of Saskatchewan: eCommons@USASK |
| description | Polar desert environments are limiting in plant available nutrients, mainly nitrogen (N) and phosphorus (P) that severely limit plant growth and establishment. Cryogenic activity regularly patterns the ground into a patchwork of frost boils – sorted circles that are associated with an increase in moisture, fertility and plant cover. Within some frost boils, the accumulation of ice-rich soil at the permafrost table can cause an upward flow of soil organic carbon (SOC) enriched permafrost material into the active layer. These diapiric intrusions are predicted to fuel microbial activity and enrich the horizon in N and P; however, the enrichment of the diapir horizon and accessibility by plants has yet to be studied. The aim of this research was to characterize the N distribution within diapir horizons located in frost boils and the effect of these intrusions on vascular plant N uptake in a polar desert ecosystem of the Canadian High Arctic. Natural abundance and enriched isotope 15N techniques were used to trace the flow of N through the soil-plant system. Surface and diapir horizons contained the highest total C and total N content within frost boils. Natural abundance δ15N analysis indicated that uptake by Salix arctica plants located on frost boils in the absence of a diapir horizon were sourcing N from the surface. However, when diapir nutrients became available, S. arctica plants began sourcing N from the diapir horizon and underlying low SOC sources in the soil, while reducing uptake from the surface. The altered foraging strategy of S. arctica in response to diapir horizon formation was further indicated by significant uptake of atomN nutrients that were injected directly into diapir horizons. These findings suggest diapir horizons are enriched in N and accessible by plants roots as an important nutrient source that is instrumental in their survival within frost boils of a polar desert ecosystem in the high arctic. |
| format | Thesis |
| genre | Arctic Ice permafrost polar desert |
| genre_facet | Arctic Ice permafrost polar desert |
| geographic | Arctic |
| geographic_facet | Arctic |
| id | ftusaskatchewan:oai:harvest.usask.ca:10388/ETD-2016-02-2431 |
| institution | Open Polar |
| language | English |
| op_collection_id | ftusaskatchewan |
| publishDate | 2016 |
| record_format | openpolar |
| spelling | ftusaskatchewan:oai:harvest.usask.ca:10388/ETD-2016-02-2431 2025-04-20T14:31:48+00:00 Fertility of frost boils and the effect of diapirism on plant nitrogen uptake in a polar desert ecosystem of the Canadian High Arctic Hardy, Sarah Siciliano, Steven Lamb, Eric Van Rees, Ken February 2016 application/pdf http://hdl.handle.net/10388/ETD-2016-02-2431 eng eng frost boil diapir arctic polar desert nitrogen phosphorus Salix arctica nutrient foraging strategy text Thesis 2016 ftusaskatchewan 2025-03-26T04:24:54Z Polar desert environments are limiting in plant available nutrients, mainly nitrogen (N) and phosphorus (P) that severely limit plant growth and establishment. Cryogenic activity regularly patterns the ground into a patchwork of frost boils – sorted circles that are associated with an increase in moisture, fertility and plant cover. Within some frost boils, the accumulation of ice-rich soil at the permafrost table can cause an upward flow of soil organic carbon (SOC) enriched permafrost material into the active layer. These diapiric intrusions are predicted to fuel microbial activity and enrich the horizon in N and P; however, the enrichment of the diapir horizon and accessibility by plants has yet to be studied. The aim of this research was to characterize the N distribution within diapir horizons located in frost boils and the effect of these intrusions on vascular plant N uptake in a polar desert ecosystem of the Canadian High Arctic. Natural abundance and enriched isotope 15N techniques were used to trace the flow of N through the soil-plant system. Surface and diapir horizons contained the highest total C and total N content within frost boils. Natural abundance δ15N analysis indicated that uptake by Salix arctica plants located on frost boils in the absence of a diapir horizon were sourcing N from the surface. However, when diapir nutrients became available, S. arctica plants began sourcing N from the diapir horizon and underlying low SOC sources in the soil, while reducing uptake from the surface. The altered foraging strategy of S. arctica in response to diapir horizon formation was further indicated by significant uptake of atomN nutrients that were injected directly into diapir horizons. These findings suggest diapir horizons are enriched in N and accessible by plants roots as an important nutrient source that is instrumental in their survival within frost boils of a polar desert ecosystem in the high arctic. Thesis Arctic Ice permafrost polar desert University of Saskatchewan: eCommons@USASK Arctic |
| spellingShingle | frost boil diapir arctic polar desert nitrogen phosphorus Salix arctica nutrient foraging strategy Hardy, Sarah Fertility of frost boils and the effect of diapirism on plant nitrogen uptake in a polar desert ecosystem of the Canadian High Arctic |
| title | Fertility of frost boils and the effect of diapirism on plant nitrogen uptake in a polar desert ecosystem of the Canadian High Arctic |
| title_full | Fertility of frost boils and the effect of diapirism on plant nitrogen uptake in a polar desert ecosystem of the Canadian High Arctic |
| title_fullStr | Fertility of frost boils and the effect of diapirism on plant nitrogen uptake in a polar desert ecosystem of the Canadian High Arctic |
| title_full_unstemmed | Fertility of frost boils and the effect of diapirism on plant nitrogen uptake in a polar desert ecosystem of the Canadian High Arctic |
| title_short | Fertility of frost boils and the effect of diapirism on plant nitrogen uptake in a polar desert ecosystem of the Canadian High Arctic |
| title_sort | fertility of frost boils and the effect of diapirism on plant nitrogen uptake in a polar desert ecosystem of the canadian high arctic |
| topic | frost boil diapir arctic polar desert nitrogen phosphorus Salix arctica nutrient foraging strategy |
| topic_facet | frost boil diapir arctic polar desert nitrogen phosphorus Salix arctica nutrient foraging strategy |
| url | http://hdl.handle.net/10388/ETD-2016-02-2431 |