Permafrost thaw and ground settlement considering long-term climate impact in northern Alaska
Autor: | Haibo Liu, Kannon C. Lee, Zhaohui Joey Yang |
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Jazyk: | angličtina |
Rok vydání: | 2021 |
Předmět: |
Coupled model intercomparison project
010504 meteorology & atmospheric sciences Global warming 0211 other engineering and technologies Climate change 02 engineering and technology Permafrost Atmospheric sciences Engineering (General). Civil engineering (General) 01 natural sciences Tundra Active layer Long-term climate impact Permafrost thaw Arctic Thermal modeling Northern Alaska Ground settlement Environmental science Climate model TA1-2040 021101 geological & geomatics engineering 0105 earth and related environmental sciences |
Zdroj: | Journal of Infrastructure Preservation and Resilience, Vol 2, Iss 1, Pp 1-17 (2021) |
ISSN: | 2662-2521 |
Popis: | Alaska’s North Slope is predicted to experience twice the warming expected globally. When summers are longer and winters are shortened, ground surface conditions in the Arctic are expected to change considerably. This is significant for Arctic Alaska, a region that supports surface infrastructure such as energy extraction and transport assets (pipelines), buildings, roadways, and bridges. Climatic change at the ground surface has been shown to infiltrate soil layers beneath through the harmonic fluctuation of the active layer. Past studies found that warmer air temperature resulted in increasingly deeper thaw, leading to a deeper active layer. This study attempts to assess climate change based on the climate model data from the fifth phase of the Coupled Model Intercomparison Project and its impact on a study site on the North Slope. The predicted air temperature data are analyzed to evaluate how the freezing and thawing indices will change due to climate warming. A thermal model was developed that incorporated a ground surface condition defined by either undisturbed intact tundra or a gravel fill surface and applied climate model predicted air temperatures. Results indicate similar fluctuation in active layer thickness and values that fall within the range of minimum and maximum readings. It is found that the active layer thickens when the ground surface is either gravel fill or undisturbed tundra, but its thickness varies based on climate model predictions. These variations in active layer thickness are then analyzed by considering the near-surface frozen soil ice content. Analysis of results indicates that strain is most significant in the near-surface layers during thaw, indicating that settlement would be concurrent with annual thaw penetration. From this study, the climate model predicted air temperatures for a warming Arctic suggest that the thaw of near-surface frozen ground is largely dependent on ground surface conditions and the thermal properties of soil. Moreover, ice content is a major factor in the settlement predictions on Alaska’s North Slope. This study's results can help enhance the resilience of the existing and future new infrastructure in a changing Arctic environment. |
Databáze: | OpenAIRE |
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