Add to ORKGRapid coastal erosion threatens Arctic coastal infrastructure, including communities and industrial installations. Erosion of permafrost depends on numerous processes, including thermal and mechanical behaviour of frozen and unfrozen soil, nearshore hydrodynamics, atmospheric forcing, and the presence of sea ice. The quantification and numerical modelling of these processes is essential to predicting Arctic coastal erosion. This paper presents a case study of Baydaratskaya Bay, Russia, using the COSMOS numerical model to predict thermal-mechanical erosion. In particular, this study focuses on thermoabrasional rather than thermodenudational processes. A field dataset of onshore thermal and mechanical soil characteristics was supplemente...
As air temperatures rise and sea ice cover declines in the Arctic, permafrost coastal cliffs thaw mo...
The evolution of Arctic coasts over the coming decades will be governed by changes in the natural en...
Analyses of the Western Canadian Arctic coastline have revealed substantial increases (up to 110%) i...
Abstract Arctic coastal erosion demands more attention as the global climate continues to change. U...
Permafrost coastlines represent a large portion of the world's coastal area and these areas have bec...
With the recent increase of interest in Arctic, the need rises for new tools for understanding the t...
The Arctic coastal zone is characterized by high erosion rates, which are on average 0,5 m/year but ...
Arctic coastal erosion demands more attention as the global climate continues to change. Unlike thos...
Erosion process in the Arctic is broadly classified into two categories: thermoabrasion and thermode...
Arctic coasts composed of frozen deposits are extremely sensitive to climate change and human impact...
Permafrost coastlines represent a large portion of the world’s coastal area and these areas have bec...
In the Arctic, air temperatures are increasing and sea ice is declining, resulting in larger waves a...
Permafrost coasts represent 34 % of the global coastline and are likely to become one of the most im...
The intensity of thermo-erosion in the coastal zone of the Laptev Sea region mirrors the strong seas...
In the Arctic, air temperatures are increasing and sea ice is declining, resulting in larger waves a...
As air temperatures rise and sea ice cover declines in the Arctic, permafrost coastal cliffs thaw mo...
The evolution of Arctic coasts over the coming decades will be governed by changes in the natural en...
Analyses of the Western Canadian Arctic coastline have revealed substantial increases (up to 110%) i...
Abstract Arctic coastal erosion demands more attention as the global climate continues to change. U...
Permafrost coastlines represent a large portion of the world's coastal area and these areas have bec...
With the recent increase of interest in Arctic, the need rises for new tools for understanding the t...
The Arctic coastal zone is characterized by high erosion rates, which are on average 0,5 m/year but ...
Arctic coastal erosion demands more attention as the global climate continues to change. Unlike thos...
Erosion process in the Arctic is broadly classified into two categories: thermoabrasion and thermode...
Arctic coasts composed of frozen deposits are extremely sensitive to climate change and human impact...
Permafrost coastlines represent a large portion of the world’s coastal area and these areas have bec...
In the Arctic, air temperatures are increasing and sea ice is declining, resulting in larger waves a...
Permafrost coasts represent 34 % of the global coastline and are likely to become one of the most im...
The intensity of thermo-erosion in the coastal zone of the Laptev Sea region mirrors the strong seas...
In the Arctic, air temperatures are increasing and sea ice is declining, resulting in larger waves a...
As air temperatures rise and sea ice cover declines in the Arctic, permafrost coastal cliffs thaw mo...
The evolution of Arctic coasts over the coming decades will be governed by changes in the natural en...
Analyses of the Western Canadian Arctic coastline have revealed substantial increases (up to 110%) i...