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Related: About this forumHuge iceberg breaks away from the Pine Island glacier in the Antarctic
http://www.awi.de/en/news/press_releases/detail/item/huge_iceberg_breaks_away_from_the_pine_island_glacier_in_the_antarctic/?cHash=f60f9a25cd481993016edb235fb000a9[font face=Serif]9. July 2013
[font size=5]Huge iceberg breaks away from the Pine Island glacier in the Antarctic[/font]
[font size=4]Bremerhaven, 9 July 2013. Yesterday (8 July 2013) a huge area of the ice shelf broke away from the Pine Island glacier, the longest and fastest flowing glacier in the Antarctic, and is now floating in the Amundsen Sea in the form of a very large iceberg. Scientists of the Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research have been following this natural spectacle via the earth observation satellites TerraSAR-X from the German Space Agency (DLR) and have documented it in many individual images. The data is intended to help solve the physical puzzle of this calving.[/font]
[font size=3]Scientists from the American space agency NASA discovered the first crack in the glacier tongue on 14 October 2011 when flying over the area. At that time it was some 24 kilometres long and 50 metres wide. As a result of these cracks, one giant iceberg broke away from the glacier tongue. It measures 720 square kilometres and is therefore almost as large as the city of Hamburg, reports Prof. Angelika Humbert, ice researcher at the Alfred Wegener Institute.
The glaciologist and her team used the high resolution radar images of the DLR earth observation satellite TerraSAR-X to observe the progress of the two cracks and to better understand the physical processes behind the glacier movements. The researchers were thus able to measure the widths of the gaps and calculate the flow speed of the ice. Above the large crack, the glacier last flowed at a speed of twelve metres per day, reports Humberts colleague Dr. Dana Floricioiu from DLR. And Nina Wilkens, PhD graduate in Prof. Humberts team, adds: Using the images we have been able to follow how the larger crack on the Pine Island glacier extended initially to a length of 28 kilometres. Shortly before the birth of the iceberg, the gap then widened bit by bit so that it measured around 540 metres at its widest point.
Are ice breaks caused by climate change? Angelika Humbert does not so far see any direct connection: The creation of cracks in the shelf ice and the development of new icebergs are natural processes, says the glaciologist. However, the Pine Island glacier, which flows from the Hudson mountains to the Amundsen Sea, was the fastest flowing glacier in the Western Antarctic with a flow speed of around 4 kilometres per year. This speed is less caused by the rising air temperatures, however, and is more attributable to the fact that the wind directions in the Amundsen Sea have altered. The wind now brings warm sea water beneath the shelf ice. Over time, this process means that the shelf ice melts from below, primarily at the so-called grounding line, the critical transition to the land ice, says the scientist.
[/font][/font]
[font size=5]Huge iceberg breaks away from the Pine Island glacier in the Antarctic[/font]
[font size=4]Bremerhaven, 9 July 2013. Yesterday (8 July 2013) a huge area of the ice shelf broke away from the Pine Island glacier, the longest and fastest flowing glacier in the Antarctic, and is now floating in the Amundsen Sea in the form of a very large iceberg. Scientists of the Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research have been following this natural spectacle via the earth observation satellites TerraSAR-X from the German Space Agency (DLR) and have documented it in many individual images. The data is intended to help solve the physical puzzle of this calving.[/font]
[font size=3]Scientists from the American space agency NASA discovered the first crack in the glacier tongue on 14 October 2011 when flying over the area. At that time it was some 24 kilometres long and 50 metres wide. As a result of these cracks, one giant iceberg broke away from the glacier tongue. It measures 720 square kilometres and is therefore almost as large as the city of Hamburg, reports Prof. Angelika Humbert, ice researcher at the Alfred Wegener Institute.
The glaciologist and her team used the high resolution radar images of the DLR earth observation satellite TerraSAR-X to observe the progress of the two cracks and to better understand the physical processes behind the glacier movements. The researchers were thus able to measure the widths of the gaps and calculate the flow speed of the ice. Above the large crack, the glacier last flowed at a speed of twelve metres per day, reports Humberts colleague Dr. Dana Floricioiu from DLR. And Nina Wilkens, PhD graduate in Prof. Humberts team, adds: Using the images we have been able to follow how the larger crack on the Pine Island glacier extended initially to a length of 28 kilometres. Shortly before the birth of the iceberg, the gap then widened bit by bit so that it measured around 540 metres at its widest point.
Are ice breaks caused by climate change? Angelika Humbert does not so far see any direct connection: The creation of cracks in the shelf ice and the development of new icebergs are natural processes, says the glaciologist. However, the Pine Island glacier, which flows from the Hudson mountains to the Amundsen Sea, was the fastest flowing glacier in the Western Antarctic with a flow speed of around 4 kilometres per year. This speed is less caused by the rising air temperatures, however, and is more attributable to the fact that the wind directions in the Amundsen Sea have altered. The wind now brings warm sea water beneath the shelf ice. Over time, this process means that the shelf ice melts from below, primarily at the so-called grounding line, the critical transition to the land ice, says the scientist.
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Huge iceberg breaks away from the Pine Island glacier in the Antarctic (Original Post)
OKIsItJustMe
Jul 2013
OP
hatrack
(59,592 posts)1. Interesting - thanks for the update!
.
OKIsItJustMe
(19,938 posts)2. My pleasure
Yes, it is interesting
hatrack
(59,592 posts)3. What's really interesting is that this is taking place two weeks after winter solstice
I've been watching the big calving & melt events ever since Larsen A back in 1995, and nearly everything from Larsen B to really big calving events on the Ross Ice Shelf (15A-C) took place at the end of the austral summer or into early austral fall,
normally from January through the beginning of March.
OKIsItJustMe
(19,938 posts)4. This one took longer
Perhaps something delivered a coup de grâce.
Coyotl
(15,262 posts)5. Thanks
OKIsItJustMe
(19,938 posts)6. You’re welcome
Come again!