Recesja lądolodów i lodowców oraz degradacja wieloletniej zmarzliny

Polar regions are an object of study of several disciplines, including cryology. The cryosphere embraces snow cover, sea ice, ice sheets, shelf ice, glaciers and ice caps, permafrost, as well as river and lake ice. The aim of the present paper is to address problems of the distribution and disappear...

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Bibliographic Details
Main Authors: Zwoliński, Zbigniew, Dobiński, Wojciech
Format: Article in Journal/Newspaper
Language:Polish
Published: 2008
Subjects:
recession of ice sheets and glaciers
degradation of permafrost
Arctic
Antarctic
The Antarctic
Antarctic Peninsula
Greenland
Antarc*
Antarctica
Climate change
glacier
Ice
permafrost
Sea ice
Spitsbergen
Online Access:https://hdl.handle.net/20.500.12128/17536
Description
Summary:Polar regions are an object of study of several disciplines, including cryology. The cryosphere embraces snow cover, sea ice, ice sheets, shelf ice, glaciers and ice caps, permafrost, as well as river and lake ice. The aim of the present paper is to address problems of the distribution and disappearance of glaciers and permafrost as an effect of the observed climate change leading primarily to a warming of the polar zones. Glacier ice found on the surface of the Earth is one of the most sensitive geoindicators of the climate change taking place in the geosphere. There is some inertia in the observable and measurable response of glacier systems relative to the change. It is estimated that for the Marine Antarctic region the delay may be some 25 years. Another feature characteristic of the recession of ice sheets and glaciers is the different rate of retreat of their fronts depending on location: ice sheets and glaciers ending on land usually display a much slower recession rate than those reaching the sea. This is combined with local, regional and global weather anomalies in temperature and precipitation which, together with the features of the bedrock, can sometimes seriously affect the recession pattern of individual glaciers. In the article examples are given of glacier recession in Greenland, Spitsbergen, Antarctica, and the Antarctic Peninsula. The areas emerging from under the ice are among the fastest, most dynamically evolving ones in the world, undergoing processes of geosuccession. Apart from an increase in the thickness of the active layer, a rise in the temperature of permafrost itself can be observed. What favours the penetration of heat into the ground is the increasingly frequent absence of snow cover, or a clear reduction in its thickness. Those changes make continuous permafrost pass into discontinuous and then sporadic permafrost. In the Arctic regions permafrost degradation has the greatest impact on construction and network infrastructure, like roads, railway lines, and telecommunication ...

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