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A Conceptual Model for Anticipating the Impact of Landscape Evolution on Groundwater Recharge in Degrading Permafrost Environments

Nathan Young, Jean‐Michel Lemieux, Hugo Delottier, Richard Fortier, Philippe Fortier

2020Geophysical Research Letters30 citationsDOIOpen Access PDF

Abstract

Abstract Temperatures in the arctic and subarctic are rising at more than twice the rate of the global average, driving the accelerated thawing of permafrost across the region. The impacts of permafrost degradation have been studied in the discontinuous permafrost zone at Umiujaq, in northern Quebec, Canada, for over 30 years, but the effects of changing land cover on groundwater recharge are not well understood. The water table fluctuation method was used to compute groundwater recharge using 4 years of water level data and soil moisture readings from five field sites characteristic of different stages of permafrost degradation and vegetation invasion. Results indicate that as vegetation grows taller, groundwater recharge increases, likely due to increased snow thickness. Results were then combined with a preexisting conceptual model that describes the evolution from tundra to shrubland and forests to create a new model for describing how groundwater recharge is affected by landscape evolution.

Topics & Concepts

PermafrostGroundwater rechargeThermokarstGroundwaterWater tableVegetation (pathology)Hydrology (agriculture)TundraEnvironmental scienceGeologyArcticSubarctic climatePhysical geographyAquiferGeographyGeotechnical engineeringOceanographyPathologyMedicineClimate change and permafrostCryospheric studies and observationsSoil and Unsaturated Flow
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