Gletsjernes tilbagetrækning siden 1850: Forskelle mellem versioner
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[[File:Goodbye, Glaciers.ogv|thumb|300px|In all, about 25 percent of the ice that melted between 2003 and 2010 occurred in the [[Americas]] (excluding Greenland).]] |
[[File:Goodbye, Glaciers.ogv|thumb|300px|In all, about 25 percent of the ice that melted between 2003 and 2010 occurred in the [[Americas]] (excluding Greenland).]] |
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The '''retreat of glaciers since 1850''' affects the availability of fresh water for irrigation and domestic use, mountain recreation, animals and plants that depend on glacier-melt, and, in the longer term, the level of the oceans. Studied by [[glaciologist]]s, the temporal coincidence of [[glacier]] retreat with the measured increase of atmospheric [[greenhouse gas]]es is often cited as an evidentiary underpinning of [[global warming]]. Mid-latitude mountain ranges such as the [[Himalayas]], [[Alps]], [[Rocky Mountains]], [[Cascade Range]], and the southern [[Andes]], as well as isolated tropical summits such as [[Mount Kilimanjaro]] in Africa, are showing some of the largest proportionate glacial losses.<ref>{{cite web|author=[[Intergovernmental Panel on Climate Change]]|title=Graph of 20 glaciers in retreat worldwide|work=Climate Change 2001 (Working Group I: The Scientific Basis)|url=http://www.grida.no/climate/ipcc_tar/wg1/fig2-18.htm|accessdate=February 14, 2015}}</ref><ref>{{cite web|author=Thomas Mölg|title=Worldwide glacier retreat|work=RealClimate|url=http://www.realclimate.org/index.php?p=129|accessdate=February 14, 2015}}</ref> |
'''Gletsjernes tilbagetrækning siden 1850''' har påvirket mængden af ferskvand tilgængelig til brug ved markvanding, i husholdninger The '''retreat of glaciers since 1850''' affects the availability of fresh water for irrigation and domestic use, mountain recreation, animals and plants that depend on glacier-melt, and, in the longer term, the level of the oceans. Studied by [[glaciologist]]s, the temporal coincidence of [[glacier]] retreat with the measured increase of atmospheric [[greenhouse gas]]es is often cited as an evidentiary underpinning of [[global warming]]. Mid-latitude mountain ranges such as the [[Himalayas]], [[Alps]], [[Rocky Mountains]], [[Cascade Range]], and the southern [[Andes]], as well as isolated tropical summits such as [[Mount Kilimanjaro]] in Africa, are showing some of the largest proportionate glacial losses.<ref>{{cite web|author=[[Intergovernmental Panel on Climate Change]]|title=Graph of 20 glaciers in retreat worldwide|work=Climate Change 2001 (Working Group I: The Scientific Basis)|url=http://www.grida.no/climate/ipcc_tar/wg1/fig2-18.htm|accessdate=February 14, 2015}}</ref><ref>{{cite web|author=Thomas Mölg|title=Worldwide glacier retreat|work=RealClimate|url=http://www.realclimate.org/index.php?p=129|accessdate=February 14, 2015}}</ref> |
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[[Glacier mass balance]] is the key determinant of the health of a glacier. If the amount of frozen precipitation in the [[accumulation zone]] exceeds the quantity of glacial ice lost due to melting or in the [[ablation zone]] a glacier will advance; if the accumulation is less than the ablation, the glacier will retreat. Glaciers in retreat will have negative mass balances, and if they do not find an equilibrium between accumulation and ablation, will eventually disappear. |
[[Glacier mass balance]] is the key determinant of the health of a glacier. If the amount of frozen precipitation in the [[accumulation zone]] exceeds the quantity of glacial ice lost due to melting or in the [[ablation zone]] a glacier will advance; if the accumulation is less than the ablation, the glacier will retreat. Glaciers in retreat will have negative mass balances, and if they do not find an equilibrium between accumulation and ablation, will eventually disappear. |
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Versionen fra 25. mar. 2018, 08:57
Gletsjernes tilbagetrækning siden 1850 har påvirket mængden af ferskvand tilgængelig til brug ved markvanding, i husholdninger The retreat of glaciers since 1850 affects the availability of fresh water for irrigation and domestic use, mountain recreation, animals and plants that depend on glacier-melt, and, in the longer term, the level of the oceans. Studied by glaciologists, the temporal coincidence of glacier retreat with the measured increase of atmospheric greenhouse gases is often cited as an evidentiary underpinning of global warming. Mid-latitude mountain ranges such as the Himalayas, Alps, Rocky Mountains, Cascade Range, and the southern Andes, as well as isolated tropical summits such as Mount Kilimanjaro in Africa, are showing some of the largest proportionate glacial losses.[1][2]
Glacier mass balance is the key determinant of the health of a glacier. If the amount of frozen precipitation in the accumulation zone exceeds the quantity of glacial ice lost due to melting or in the ablation zone a glacier will advance; if the accumulation is less than the ablation, the glacier will retreat. Glaciers in retreat will have negative mass balances, and if they do not find an equilibrium between accumulation and ablation, will eventually disappear.
The Little Ice Age was a period from about 1550 to 1850 when the world experienced relatively cooler temperatures compared to the present. Subsequently, until about 1940, glaciers around the world retreated as the climate warmed substantially. Glacial retreat slowed and even reversed temporarily, in many cases, between 1950 and 1980 as global temperatures cooled slightly.[3] Since 1980, a significant global warming has led to glacier retreat becoming increasingly rapid and ubiquitous, so much so that some glaciers have disappeared altogether, and the existences of many of the remaining glaciers are threatened. In locations such as the Andes of South America and Himalayas in Asia, the demise of glaciers in these regions has the potential to affect water supplies in those areas.
The retreat of mountain glaciers, notably in western North America, Asia, the Alps and tropical and subtropical regions of South America, Africa and Indonesia, provide evidence for the rise in global temperatures since the late 19th century.[4][5] The acceleration of the rate of retreat since 1995 of key outlet glaciers of the Greenland and West Antarctic ice sheets may foreshadow a rise in sea level, which would affect coastal regions.
- ^ Intergovernmental Panel on Climate Change. "Graph of 20 glaciers in retreat worldwide". Climate Change 2001 (Working Group I: The Scientific Basis). Hentet februar 14, 2015.
{{cite web}}: CS1-vedligeholdelse: Dato automatisk oversat (link) - ^ Thomas Mölg. "Worldwide glacier retreat". RealClimate. Hentet februar 14, 2015.
{{cite web}}: CS1-vedligeholdelse: Dato automatisk oversat (link) - ^ Pelto, Mauri. "Recent Global Glacier Retreat Overview". North Cascade Glacier Climate Project. Hentet februar 14, 2015.
{{cite web}}: CS1-vedligeholdelse: Dato automatisk oversat (link) - ^ Intergovernmental panel on climate change. "2.2.5.4 Mountain glaciers". Climate Change 2001 (Working Group I: The Scientific Basis. Arkiveret fra originalen september 1, 2014. Hentet februar 14, 2015.
{{cite web}}: Ugyldig|deadurl=yes(hjælp); Ukendt parameter|deadurl=ignoreret (|url-status=foreslået) (hjælp)CS1-vedligeholdelse: Dato automatisk oversat (link) - ^ National Snow and Ice Data Center. "Global glacier recession". GLIMS Data at NSIDC. Arkiveret fra originalen juli 5, 2008. Hentet februar 14, 2015.
{{cite web}}: Ugyldig|deadurl=yes(hjælp); Ukendt parameter|deadurl=ignoreret (|url-status=foreslået) (hjælp)CS1-vedligeholdelse: Dato automatisk oversat (link)