Add to ORKGThe Tanana River flows through interior Alaska, a region characterized by discontinuous permafrost. Studies link degrading permafrost to increased winter river discharge due to increasing groundwater input. In winter, interior Alaskan rivers are exclusively fed by groundwater, which serves as an external source of heat. In fact, some portions of rivers fed by groundwater maintain thin ice throughout the winter, or remain altogether ice-free, despite very cold air temperatures. These ice conditions represent a significant danger to winter travellers who use rivers for wintertime travel, particularly in this largely roadless area. We developed a physically-based, numeric model to explore how fluctuations in groundwater discharge control ic...
Under a warming climate, permafrost degradation has resulted in profound hydrogeological consequence...
Degradation of sub-aquatic permafrost can release large quantities of methane into the atmosphere, i...
The Arctic is considered to be particularly sensitive to global climate change. Global warming will ...
We modeled the thermal balance between groundwater discharge and ice-free areas in the Tanana River ...
In continuous permafrost environments, understanding complex river-talik system dynamics is fundamen...
Temperatures in the arctic and subarctic are rising at more than twice the rate of the global averag...
Icing occurs each winter along the floodplain of the Kuuguluk River in the continuous permafrost zon...
Hydrological processes in the Arctic are profoundly influenced by the presence of permanently frozen...
Numerical simulations of groundwater flow and heat transport are used to provide insight into the i...
Groundwater flow regimes in the seasonally thawed soils in areas of continuous permafrost are relati...
Abstract Observations show increases in river discharge to the Arctic Ocean especially in w...
The extent and dynamics of permafrost are tightly linked to the distribution and movement of water i...
A land process model [the coupled hydrological and biogeochemical model (CHANGE)] is used to quantit...
Numerical simulations of coupled groundwater flow and heat transport are used to address how hydroge...
Arctic river icings are surface ice accumulations that can be >10 km2 in area and >10 m thick....
Under a warming climate, permafrost degradation has resulted in profound hydrogeological consequence...
Degradation of sub-aquatic permafrost can release large quantities of methane into the atmosphere, i...
The Arctic is considered to be particularly sensitive to global climate change. Global warming will ...
We modeled the thermal balance between groundwater discharge and ice-free areas in the Tanana River ...
In continuous permafrost environments, understanding complex river-talik system dynamics is fundamen...
Temperatures in the arctic and subarctic are rising at more than twice the rate of the global averag...
Icing occurs each winter along the floodplain of the Kuuguluk River in the continuous permafrost zon...
Hydrological processes in the Arctic are profoundly influenced by the presence of permanently frozen...
Numerical simulations of groundwater flow and heat transport are used to provide insight into the i...
Groundwater flow regimes in the seasonally thawed soils in areas of continuous permafrost are relati...
Abstract Observations show increases in river discharge to the Arctic Ocean especially in w...
The extent and dynamics of permafrost are tightly linked to the distribution and movement of water i...
A land process model [the coupled hydrological and biogeochemical model (CHANGE)] is used to quantit...
Numerical simulations of coupled groundwater flow and heat transport are used to address how hydroge...
Arctic river icings are surface ice accumulations that can be >10 km2 in area and >10 m thick....
Under a warming climate, permafrost degradation has resulted in profound hydrogeological consequence...
Degradation of sub-aquatic permafrost can release large quantities of methane into the atmosphere, i...
The Arctic is considered to be particularly sensitive to global climate change. Global warming will ...