London, July 12: An enormous iceberg has broken off from a key floating ice shelf in Antarctica, scientists have announced.
The iceberg weighs a staggering trillion tonnes and has an area of 5,800 sq km. It was found to have split off from the Larsen C segment of the ice shelf on Wednesday after scientists examined the satellite data from the area, the Daily Mail reported.
Scientists at the University of Swansea in Britain said they were expecting it. They had been following the development of a large crack in Larsen’s ice for more than a decade.
The fil break happened between Monday and Wednesday and the calving of the iceberg, which is likely to be med A68, reduces the size of the ice Shelf by around 12 per cent, said researchers.
They said it will change the landscape of the Antarctic peninsula forever, ITV News reported.
“We have been anticipating this event for months, and have been surprised how long it took for the rift to break through the fil few kilometres of ice,” said Professor Adrian Luckman of Swansea University, lead investigator of the project.
“We will continue to monitor both the impact of this calving event on the Larsen C Ice Shelf, and the fate of this huge iceberg.
“The iceberg is one of the largest recorded and its future progress is difficult to predict. It may remain in one piece but is more likely to break into fragments,” Professor Luckman said.
Although the iceberg weighs a trillion tonnes, it was already floating before it calved away so will have no immediate impact on sea level, the researchers said.
While the researchers said the calving was a “tural event”, it put the ice shelf in a vulnerable position.
There are concerns that Larsen C could follow the example of its neighbouring ice shelf Larsen B, which disintegrated in 2002 after a similar event.
Dr Martin O’Leary, a Swansea University glaciologist and member of the Midas project team, said: “Although this is a tural event, and we’re not aware of any link to human-induced climate change, this puts the ice shelf in a very vulnerable position.”
“This is the furthest back that the ice front has been in recorded history. We’re going to be watching very carefully for signs that the rest of the shelf is becoming unstable.”(IANS)