Add to ORKGQuantitative understanding of controls on thaw layer thickness (TLT) dynamics in the Arctic peninsula is essential for predictive understanding of permafrost degradation feedbacks to global warming and hydrobiochemical processes. This study jointly interprets electrical resistivity tomography (ERT) measurements and hydro-thermal numerical simulation results to assess spatiotemporal variations of TLT and to determine its controlling factors in Barrow, Alaska. Time-lapse ERT measurements along a 35-m transect were autonomously collected from 2013 to 2015 and inverted to obtain soil electrical resistivity. Based on several probe-based TLT measurements and co-located soil electrical resistivity, we estimated the electrical resistivity threshold...
International audienceWe use a basket geothermal heat exchanger during 518 hr to freeze a portion of...
We conducted laboratory studies on the geophysical signals from Arctic saline permafrost soils to he...
Climate change is profoundly transforming the carbon-rich Arctic tundra landscape, potentially movin...
Coincident monitoring of the spatiotemporal distribution of and interactions between land, soil, and...
Improving understanding of Arctic ecosystem climate feedback and parameterization of models that sim...
Permanent electrode arrays were set up at ten monitoring sites from Whitehorse, Yukon, to Fort St. J...
Global climate change has resulted in a warmer Arctic, with projections indicating accelerated modif...
Along Arctic coastlines retrogressive thaw slumps (RTS) are common thermokarst landform. They delive...
Accurate representations of subsurface flow in hydrologic models of permafrost terrain during spring...
With permafrost thawing and changes in active layer dynamics induced by climate change, interactions...
Active layer thickness (ALT) is a critical metric for monitoring permafrost. How soil moisture influ...
Studies indicate greenhouse gas emissions following permafrost thaw will amplify current rates of at...
To accurately represent subsurface flow in a hydrologic model of permafrost terrain during spring th...
Shallow permafrost distribution and characteristics are important for predicting ecosystem feedbacks...
This study quantitatively evaluated how insulation by snow depth (SND) affected the soil thermal reg...
International audienceWe use a basket geothermal heat exchanger during 518 hr to freeze a portion of...
We conducted laboratory studies on the geophysical signals from Arctic saline permafrost soils to he...
Climate change is profoundly transforming the carbon-rich Arctic tundra landscape, potentially movin...
Coincident monitoring of the spatiotemporal distribution of and interactions between land, soil, and...
Improving understanding of Arctic ecosystem climate feedback and parameterization of models that sim...
Permanent electrode arrays were set up at ten monitoring sites from Whitehorse, Yukon, to Fort St. J...
Global climate change has resulted in a warmer Arctic, with projections indicating accelerated modif...
Along Arctic coastlines retrogressive thaw slumps (RTS) are common thermokarst landform. They delive...
Accurate representations of subsurface flow in hydrologic models of permafrost terrain during spring...
With permafrost thawing and changes in active layer dynamics induced by climate change, interactions...
Active layer thickness (ALT) is a critical metric for monitoring permafrost. How soil moisture influ...
Studies indicate greenhouse gas emissions following permafrost thaw will amplify current rates of at...
To accurately represent subsurface flow in a hydrologic model of permafrost terrain during spring th...
Shallow permafrost distribution and characteristics are important for predicting ecosystem feedbacks...
This study quantitatively evaluated how insulation by snow depth (SND) affected the soil thermal reg...
International audienceWe use a basket geothermal heat exchanger during 518 hr to freeze a portion of...
We conducted laboratory studies on the geophysical signals from Arctic saline permafrost soils to he...
Climate change is profoundly transforming the carbon-rich Arctic tundra landscape, potentially movin...