Recent Changes in High-Latitude Glaciers, Ice Caps, and Ice Sheets
The glaciers and ice sheets of the world contain enough ice to raise sea level by approximately 70 meters if they were to disappear entirely, and most of this ice is located in the climatically sensitive polar regions. Fortunately changes of this magnitude would probably take many thousands of years...
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2006
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| Online Access: | http://hdl.handle.net/2060/20060013398 |
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ftnasantrs:oai:casi.ntrs.nasa.gov:20060013398 |
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ftnasantrs:oai:casi.ntrs.nasa.gov:20060013398 2023-05-15T13:34:40+02:00 Recent Changes in High-Latitude Glaciers, Ice Caps, and Ice Sheets Abdalati, Waleed Unclassified, Unlimited, Publicly available [2006] application/pdf http://hdl.handle.net/2060/20060013398 unknown Document ID: 20060013398 http://hdl.handle.net/2060/20060013398 No Copyright CASI Geophysics 2006 ftnasantrs 2018-06-09T23:00:36Z The glaciers and ice sheets of the world contain enough ice to raise sea level by approximately 70 meters if they were to disappear entirely, and most of this ice is located in the climatically sensitive polar regions. Fortunately changes of this magnitude would probably take many thousands of years to occur, but recent discoveries indicate that these ice masses are responding to changes in today s climate more rapidly than previously thought. These responses are likely to be of great societal significance, primarily in terms of their implications for sea level, but also in terms of how their discharge of freshwater, through melting or calving, may impact ocean circulation. For millions of years, oceans have risen and fallen as the Earth has warmed and cooled, and ice on land has shrunk and grown. Today is no different in that respect, as sea levels have been rising at a rate of nearly 2 m per year during the last century (Miller and Douglas 2004), and 3 mm/yr in the last 12 years (Leuliette et al. 2004). What is different today, however, is that tens - perhaps hundreds - of millions of people live in coastal areas that are vulnerable to changes in sea level. Rising seas erode beaches, increase flood potential, and reduce the ability of barrier islands and coastal wetlands to mitigate the effects of major storms and hurricanes. The costs associated with a one-meter rise in sea level are estimated to be in the hundreds of billions of dollars in the United States alone. The worldwide costs in human terms would be far greater as some vulnerable low-lying coastal regions would become inundated, especially in poorer nations that do not have the resources to deal with such changes. Such considerations are particularly important in light of the fact that a one meter sea level rise is not significantly outside the 0.09 to 0.88 range of predictions for this century (IPCC 2001), and rises of this magnitude have occurred in the past in as little as 20 years (Fairbanks 1989). While the expansion of the warming oceans is estimated to be about a third of recent sea level rise, (Miller and Douglas 2004) the greatest potential for significantly increasing sea level lies in the Greenland and Antarctic ice sheets. For different reasons, each exhibits characteristics that suggest they are potentially unstable. In Antarctica, large portions of the ice cover rest on a soft bed that lies below sea level, making it vulnerable to runaway retreat. The Greenland ice sheet experiences considerable melt, which has the potential to rapidly accelerate the flow of ice toward the sea. While smaller ice masses, such as the Alaskan Glaciers and the Canadian ice caps, do not have anywhere near the same potential to impact sea level as the vast ice sheets do, many are melting rapidly, posing a significant near-term threat. Other/Unknown Material Antarc* Antarctic Antarctica Greenland Ice Sheet NASA Technical Reports Server (NTRS) Antarctic Barrier Islands ENVELOPE(-92.283,-92.283,62.784,62.784) Fairbanks Greenland |
| institution |
Open Polar |
| collection |
NASA Technical Reports Server (NTRS) |
| op_collection_id |
ftnasantrs |
| language |
unknown |
| topic |
Geophysics |
| spellingShingle |
Geophysics Abdalati, Waleed Recent Changes in High-Latitude Glaciers, Ice Caps, and Ice Sheets |
| topic_facet |
Geophysics |
| description |
The glaciers and ice sheets of the world contain enough ice to raise sea level by approximately 70 meters if they were to disappear entirely, and most of this ice is located in the climatically sensitive polar regions. Fortunately changes of this magnitude would probably take many thousands of years to occur, but recent discoveries indicate that these ice masses are responding to changes in today s climate more rapidly than previously thought. These responses are likely to be of great societal significance, primarily in terms of their implications for sea level, but also in terms of how their discharge of freshwater, through melting or calving, may impact ocean circulation. For millions of years, oceans have risen and fallen as the Earth has warmed and cooled, and ice on land has shrunk and grown. Today is no different in that respect, as sea levels have been rising at a rate of nearly 2 m per year during the last century (Miller and Douglas 2004), and 3 mm/yr in the last 12 years (Leuliette et al. 2004). What is different today, however, is that tens - perhaps hundreds - of millions of people live in coastal areas that are vulnerable to changes in sea level. Rising seas erode beaches, increase flood potential, and reduce the ability of barrier islands and coastal wetlands to mitigate the effects of major storms and hurricanes. The costs associated with a one-meter rise in sea level are estimated to be in the hundreds of billions of dollars in the United States alone. The worldwide costs in human terms would be far greater as some vulnerable low-lying coastal regions would become inundated, especially in poorer nations that do not have the resources to deal with such changes. Such considerations are particularly important in light of the fact that a one meter sea level rise is not significantly outside the 0.09 to 0.88 range of predictions for this century (IPCC 2001), and rises of this magnitude have occurred in the past in as little as 20 years (Fairbanks 1989). While the expansion of the warming oceans is estimated to be about a third of recent sea level rise, (Miller and Douglas 2004) the greatest potential for significantly increasing sea level lies in the Greenland and Antarctic ice sheets. For different reasons, each exhibits characteristics that suggest they are potentially unstable. In Antarctica, large portions of the ice cover rest on a soft bed that lies below sea level, making it vulnerable to runaway retreat. The Greenland ice sheet experiences considerable melt, which has the potential to rapidly accelerate the flow of ice toward the sea. While smaller ice masses, such as the Alaskan Glaciers and the Canadian ice caps, do not have anywhere near the same potential to impact sea level as the vast ice sheets do, many are melting rapidly, posing a significant near-term threat. |
| author |
Abdalati, Waleed |
| author_facet |
Abdalati, Waleed |
| author_sort |
Abdalati, Waleed |
| title |
Recent Changes in High-Latitude Glaciers, Ice Caps, and Ice Sheets |
| title_short |
Recent Changes in High-Latitude Glaciers, Ice Caps, and Ice Sheets |
| title_full |
Recent Changes in High-Latitude Glaciers, Ice Caps, and Ice Sheets |
| title_fullStr |
Recent Changes in High-Latitude Glaciers, Ice Caps, and Ice Sheets |
| title_full_unstemmed |
Recent Changes in High-Latitude Glaciers, Ice Caps, and Ice Sheets |
| title_sort |
recent changes in high-latitude glaciers, ice caps, and ice sheets |
| publishDate |
2006 |
| url |
http://hdl.handle.net/2060/20060013398 |
| op_coverage |
Unclassified, Unlimited, Publicly available |
| long_lat |
ENVELOPE(-92.283,-92.283,62.784,62.784) |
| geographic |
Antarctic Barrier Islands Fairbanks Greenland |
| geographic_facet |
Antarctic Barrier Islands Fairbanks Greenland |
| genre |
Antarc* Antarctic Antarctica Greenland Ice Sheet |
| genre_facet |
Antarc* Antarctic Antarctica Greenland Ice Sheet |
| op_source |
CASI |
| op_relation |
Document ID: 20060013398 http://hdl.handle.net/2060/20060013398 |
| op_rights |
No Copyright |
| _version_ |
1766055634888818688 |