A 1 trillion-ton iceberg has broken off Antarctica, and scientists say it's one of the largest ever recorded
- Antarctica has shed an iceberg that's big enough to fill Lake Michigan.
- It weighs about 1 trillion metric tonnes.
- It may be the third-largest iceberg recorded since satellites began taking photos of Earth.
- Human activity likely isn't responsible for this event, but carbon emissions are driving other changes to Antarctic ice.
The image is a bit fuzzy, but to scientists it's unmistakable: One of the largest icebergs ever recorded has broken free of Antarctica.
A crack in an Antarctica's Larsen C ice shelf is responsible for calving the colossal new iceberg, which is roughly the area of Delaware state and the volume of Lake Michigan.
Researchers noticed the distinctive rift in Antarctica's ice in 2010, which has grown rapidly since 2016. The iceberg calved between July 10 and July 12, researchers said.
"Breaking news! The iceberg has fully detached from Larsen C - more details to follow soon," Martin O'Leary a glaciologist at Swansea University, wrote in a tweet early Wednesday morning for Project MIDAS.
A NASA Earth-observing satellite called MODIS was among the first to photograph the colossal ice block freed of Antarctica's grasp.
Based on the image above, and another created by Adrian Luckman, also a glaciologist at Swansea University and a MIDAS Project member, it appears the iceberg has largely stayed intact.
This could make it the third-largest recorded since satellite measurements began, according to a July 6 tweet by The Antarctic Report.
In a July 12 blog post, Luckman and O'Leary said it is "one of the biggest ever recorded" at a weight of roughly 1 trillion metric tonnes, and said its name will likely be dubbed A68.
"The calving of this iceberg leaves the Larsen C Ice Shelf reduced in area by more than 12%, and the landscape of the Antarctic Peninsula changed forever," they said.
How big the new iceberg is, and where it's going
The ice block's area is roughly comparable to the US state of Delaware. But CryoSat — Europe's ice-monitoring satellite — recently took the most precise measurements to date of its thickness, allowing scientists to gauge its total volume.
Days before it broke free, Noel Gourmelen, a glaciologist at the University of Edinburgh, and his colleagues estimated the iceberg that is now drifting through the Southern Ocean would be about 620 feet (190 meters) thick and harbor some 277 cubic miles (1,155 cubic kilometers) of frozen water.
That's big enough to fill more than 460 million Olympic-size swimming pools with ice, or nearly all of Lake Michigan — one of the largest freshwater reservoirs in the world.
Gourmelen and the ESA on July 5 released this 3D animation that shows the iceberg's dimensions:
And here's Lake Michigan for a size comparison:
Scientists previously said they aren't sure what will happen when the iceberg breaks off, since such large calvings rarely seen.
"It could, in fact, even calve in pieces or break up shortly after. Whole or in pieces, ocean currents could drag it north, even as far as the Falkland Islands," Anna Hogg, a glaciologist at the University of Leeds, said said in a July 5 press release by the European Space Agency.
Those islands lie more than 1,000 miles away from Larsen C in Antarctica.
This illustration of hundreds of icebergs' paths, from 1999 through 2010, shows how that drift might play out before it completely melts.
An ice block thousands of years in the making
Antarctica's Larsen C ice shelf is one of the largest such shelves in the southern continent.
According to a tweet from Project MIDAS, "most of the ice that calves off fell as snow on the ice shelf in the past few hundred years, but there's an inner core that's a bit older."
Project MIDAS announced in early June that satellite images showed the rift had split, turned north, and begun moving toward the Southern Ocean.
Luckman, who has closely monitors the ice shelf with his colleagues at Project MIDAS, previously released an animation of the rift's rapid growth (below).
It shows how the rift "jumped" as it sliced through bands of weak ice, and slowed when it met stronger, thicker ice. The ocean is shown in emerald green (top right), the Larsen C ice shelf is the light-blue patch, and the glacier behind it is depicted in white.
The final frame shows an image of the rift's tip breaking in multiple directions — a sign of imminent calving of the iceberg.
A close-up from the ESA's Copernicus satellite more clearly showed the chaos of the crack's tip on July 6:
Are humans behind this?
The iceberg won't noticeably raise sea levels, since it was already floating in the ocean as part of Larsen C and displacing water. But Luckman and O'Leary previously said that once Larsen C loses its iceberg, the rest of the shelf "will be less stable than it was prior to the rift."
Put another way: There's a very slim chance that new iceberg could cause the entire Larsen C ice shelf, and an ancient glacier behind it, to slowly disintegrate and fall into the sea.
The chaos wouldn't be unprecedented. In 2002, a neighboring ice shelf called Larsen B collapsed and broke up in the Southern Ocean. This animation captures that event unfolding from January 31 through April 13, 2002:
If and when Larsen C and its accompanying glacial ice eventually collapse, some scientists think sea levels may rise by up to 4 inches.
However, experts on Antarctic ice say that such a loss is exceedingly unlikely and would mostly be due to natural processes.
"Large calving events such as this are normal processes of a healthy ice sheet, ones that have occurred for decades, centuries, millennia — on cycles that are much longer than a human or satellite lifetime," Helen Amanda Fricker, a glaciologist who studies Antarctic ice for the Scripps Institution of Oceanography, wrote in The Guardian last month. "What looks like an enormous loss is just ordinary housekeeping for this part of Antarctica."
Buy Fricker warned that we shouldn't be complacent about climate change, which is mostly being driven by human activity.
"Antarctic ice shelves overall are seeing accelerated thinning, and the ice sheet is losing mass in key sectors of Antarctica," she said. "Continuing losses might soon lead to an irreversible decline."
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Contributer : Tech Insider http://ift.tt/2uhNPGA
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