Permafrost coasts represent 34 % of the global coastline and are likely to become one of the most impacted environments of the Earth under changing climate conditions. The lengthening of the open-water season and the increasing open-water area, the warming of permafrost, the increasing occurrence of coastal thermokarst, and the increase in sea surface temperatures are all thought to impact the pace of coastal erosion. In particular, storms are predicted to hit the coasts later in the fall season. These storms are thought to bear staggering threats to the coasts in the form of destruction of community and industry infrastructure as well as dramatic changes in sedi-ment and nutrient pathways in the nearshore zone. Alas, there is little data a...
As air temperatures rise and sea ice cover declines in the Arctic, permafrost coastal cliffs thaw mo...
The Arctic is warming. This results in longer open-water periods during which waves can interact wit...
In the Arctic, temperatures are rising twice as fast as the global mean. Since most of the terrestri...
Climate warming is particularly pronounced in the Arctic with temperatures rising twice as much as ...
Some of the highest coastal erosion rates in the world are now occurring along non-bedrock, permafro...
Analyses of the Western Canadian Arctic coastline have revealed substantial increases (up to 110%) i...
The Arctic’s climate system is changing: air temperatures, major river discharges and open water sea...
Arctic permafrost coasts are sensitive to changing climate. The lengthening open water season and th...
Abstract Arctic permafrost coasts are sensitive to chang-ing climate. The lengthening open water sea...
Permafrost coasts represent 34 % of the global coastline and are likely to become one of the most im...
Permafrost coasts make up to 34 per cent of the world's coastlines. Erosion of these coasts currentl...
Across the Arctic, over the satellite record, the open-water season has increased in duration, and s...
Coastal dynamics directly reflecting the complicated land-ocean interactions play an important role ...
Arctic coastal environments are eroding and rapidly changing. A lack of pan-Arctic observations limi...
Permafrost is a major component of the cryosphere, underlying 24% of the Northern Hemisphere’s land ...
As air temperatures rise and sea ice cover declines in the Arctic, permafrost coastal cliffs thaw mo...
The Arctic is warming. This results in longer open-water periods during which waves can interact wit...
In the Arctic, temperatures are rising twice as fast as the global mean. Since most of the terrestri...
Climate warming is particularly pronounced in the Arctic with temperatures rising twice as much as ...
Some of the highest coastal erosion rates in the world are now occurring along non-bedrock, permafro...
Analyses of the Western Canadian Arctic coastline have revealed substantial increases (up to 110%) i...
The Arctic’s climate system is changing: air temperatures, major river discharges and open water sea...
Arctic permafrost coasts are sensitive to changing climate. The lengthening open water season and th...
Abstract Arctic permafrost coasts are sensitive to chang-ing climate. The lengthening open water sea...
Permafrost coasts represent 34 % of the global coastline and are likely to become one of the most im...
Permafrost coasts make up to 34 per cent of the world's coastlines. Erosion of these coasts currentl...
Across the Arctic, over the satellite record, the open-water season has increased in duration, and s...
Coastal dynamics directly reflecting the complicated land-ocean interactions play an important role ...
Arctic coastal environments are eroding and rapidly changing. A lack of pan-Arctic observations limi...
Permafrost is a major component of the cryosphere, underlying 24% of the Northern Hemisphere’s land ...
As air temperatures rise and sea ice cover declines in the Arctic, permafrost coastal cliffs thaw mo...
The Arctic is warming. This results in longer open-water periods during which waves can interact wit...
In the Arctic, temperatures are rising twice as fast as the global mean. Since most of the terrestri...