Canadian Water Resources Vulnerability Index - Permafrost Loss

Canadian Water Resources Vulnerability Index - Permafrost Loss Permafrost loss is pervasive across northern circumpolar regions. The loss of frozen ground has profound impacts on water resources at varying spatial and temporal scales via changes to predominant hydrological processes, runoff pathways and entrainment rates of solutes and sediments. Consensus exists that permafrost loss will continue, and rates will vary spatially, but how hydrology and biogeochemistry will respond across large swaths of land remains largely unknown. Previous research elucidated small-scale processes or described circumpolar trends, with minimal cross-scale research. In particular, a pan-Canadian assessment of water resource vulnerability to permafrost loss is lacking. This study develops and applies a framework for assessing vulnerability of pan-Canadian water resources to permafrost loss. For the purposes of this study, “water resources” is defined as the surface hydrological and aquatic chemistry regime characterized by water budgets, aquatic chemistry concentrations and loads. The framework was applied in developing the Canadian Water Resources Vulnerability Index to Permafrost Loss (CWRVIPL), including mapping of the index across the Canadian North. The CWRVIPL is a linearly additive index of permafrost, physiographic, disturbance and climatic conditions and stressors that influence water budgets and aquatic chemistry. Initial results imply aspects of water resources in northern Alberta, the Northwest Territories and the Hudson Bay Lowlands are most vulnerable to permafrost loss, and these regions are embedded in a large band of relatively more vulnerable territory extending from the northern Yukon south to James Bay and northeastward to Labrador. In the Arctic Archipelago, water resources in portions of Banks, Victoria and Baffin Islands are also relatively vulnerable to permafrost loss. The index identifies areas of water resource vulnerability on which to focus and encourage ongoing observation and research in the Canadian North. 2023-04-13 Environment and Climate Change Canada enviroinfo@ec.gc.ca Nature and EnvironmentWaterEnvironmental ModelPermafrostWater QuantityStreamflowWater ChemistryVulnerabilityYukonNorthwest TerritoriesNunavut The Canadian Water Resource Vulnerability Index to Permafrost Thaw (CWRVIPT)PDF https://cdnsciencepub.com/doi/10.1139/as-2019-0028 View ECCC Data Mart (English)HTML https://data-donnees.ec.gc.ca/data/climate/scientificknowledge/canadian-water-resources-vulnerability-index-permafrost-loss/ View ECCC Data Mart (French)HTML https://data-donnees.ec.gc.ca/data/climate/scientificknowledge/canadian-water-resources-vulnerability-index-permafrost-loss/?lang=fr

Permafrost loss is pervasive across northern circumpolar regions. The loss of frozen ground has profound impacts on water resources at varying spatial and temporal scales via changes to predominant hydrological processes, runoff pathways and entrainment rates of solutes and sediments. Consensus exists that permafrost loss will continue, and rates will vary spatially, but how hydrology and biogeochemistry will respond across large swaths of land remains largely unknown. Previous research elucidated small-scale processes or described circumpolar trends, with minimal cross-scale research. In particular, a pan-Canadian assessment of water resource vulnerability to permafrost loss is lacking. This study develops and applies a framework for assessing vulnerability of pan-Canadian water resources to permafrost loss. For the purposes of this study, “water resources” is defined as the surface hydrological and aquatic chemistry regime characterized by water budgets, aquatic chemistry concentrations and loads. The framework was applied in developing the Canadian Water Resources Vulnerability Index to Permafrost Loss (CWRVIPL), including mapping of the index across the Canadian North. The CWRVIPL is a linearly additive index of permafrost, physiographic, disturbance and climatic conditions and stressors that influence water budgets and aquatic chemistry. Initial results imply aspects of water resources in northern Alberta, the Northwest Territories and the Hudson Bay Lowlands are most vulnerable to permafrost loss, and these regions are embedded in a large band of relatively more vulnerable territory extending from the northern Yukon south to James Bay and northeastward to Labrador. In the Arctic Archipelago, water resources in portions of Banks, Victoria and Baffin Islands are also relatively vulnerable to permafrost loss. The index identifies areas of water resource vulnerability on which to focus and encourage ongoing observation and research in the Canadian North.

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