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Arctic Ice Shelf Splits

The largest ice shelf in the Arctic has fractured, releasing all the water from the freshwater lake it dammed.

The huge mass of floating ice, which has been in place for at least 3,000 years, is now in two major pieces.
(Photo by Vicki Sahanatien, Parks Canada)
(Photo by Vicki Sahanatien, Parks Canada)
Three researchers investigate the serpentine fracture, summer 2002. On the left, two scientists lower a temperature/salininty instrument into the crack to measure water properties and determine how deep the crack is.

Last Updated: Tuesday, 23 September, 2003, 11:23 GMT 12:23 UK

Arctic ice shelf splits

The largest ice shelf in the Arctic has fractured, releasing all the water from the freshwater lake it dammed

The Ward Hunt Ice Shelf is located on the north coast of Ellesmere Island in Canada's Nunavut territory.

The huge mass of floating ice, which has been in place for at least 3,000 years, is now in two major pieces.

The scientists who report the break-up in the journal Geophysical Research Letters (GRL) say it is further evidence of ongoing and accelerated climate change in the north polar region.

The researchers - Warwick Vincent and Derek Mueller of Laval University in Quebec City, Canada; and Martin Jeffries of the University of Alaska Fairbanks, US - have been studying the shelf onsite and through satellite radar imagery and helicopter overflights.

Lost water

The Ward Hunt Ice Shelf, which is 443 square kilometres in size, now has a major crack that runs right through it from north to south.

The scientists say the fracturing - which has been developing since the spring of 2000 - is the end result of a three-decade-long decline.

"We're now seeing some very extensive fractures in it that extend many kilometres horizontally across the ice-shelf; and they extend all the way through from the top to the bottom, many tens of metres through the ice shelf. And we've never seen fractures like this," Dr Jeffries told the BBC.

They warn that major free-floating ice islands could pose a danger to shipping and to drilling platforms in the Beaufort Sea.

The immediate consequence of the rupture has been the loss of almost all of the freshwater from the Northern Hemisphere's largest epishelf lake (a body of mostly freshwater trapped behind an ice shelf).

The freshwater lay in the 30-kilometre- [20-mile] long Disraeli Fiord.

At its deepest, the freshwater measured 43 metres [140 feet], and sat atop 360 metres [1,200 feet] of denser ocean water.

Other worlds

The loss of fresh and brackish water has changed the environment for the microscopic animals and algae living in the area.

"These are very rare and unusual ecosystems and they have been studied as possible analogues for life on a colder Earth and life on the planets," Dr Jeffries said.

"And if we are losing them, we are losing the opportunity to study life earlier in Earth history and elsewhere in the Solar System."

Scientists monitor continuously ice-shelf development in both the Arctic and the Antarctic.

In the southern polar region, recent times have witnessed some dramatic changes.

Last year, the 3,250-square-km Larsen B Ice Shelf on the Antarctic Peninsula shattered over a period of a month into thousands of icebergs.

The peninsula is one of the three fastest-warming regions on Earth - temperatures have gone up 2.5 degrees in 50 years.

Global change

Mueller, Vincent, and Jeffries say their calculations suggest changes of a similar nature have been taking place in the Ellesmere Island area.

A century ago, the entire northern coast of the island was reported to be fringed with a continuous ice shelf. About 90% of that ice area had been lost by 1982, the scientists say.

The precise timing of the break-up of the remnant Ward Hunt Ice Shelf may have been influenced by freeze-thaw cycles, wind, and tides, they tell GRL.

Other factors may include changes in Arctic Ocean temperature, salinity, and flow patterns, they add.

"Computer models show quite convincingly that global climate change would be manifested first and amplified in the polar regions and in particular in the Arctic," Dr Jeffries said

"Our observations at Ward Hunt Ice Shelf fit in with a broader picture of Arctic change which fits in with our understanding of how the Arctic climate would respond to global change."

homepage: homepage: http://news.bbc.co.uk/1/hi/sci/tech/3132074.stm