Nasa detects new signs glaciers in East Antarctica are melting
The findings heighten fears that ice loss could lead to rising sea levels.
Nasa scientists have detected signs that large glaciers in East Antarctica are melting away.
The eastern half of the continent was previously considered to be more stable than the west.
But new maps of ice velocity and elevation have revealed that a group of glaciers covering one-eighth of the East Antarctic coast have been losing ice for a decade.
The findings will heighten fears that melting ice could lead to rising sea levels worldwide.
— NASA (@NASA) December 10, 2018
LIVE NOW: East Antarctica contains enough ice to potentially raise our global sea level by 200 feet. @NASA_ICE scientists discuss the causes driving new findings on how a group of glaciers have shown signs of acceleration in the last decade. Watch: https://t.co/wBN4JhQIMM #AGU18 pic.twitter.com/bTr6maamal
Glaciologists have previously warned that the Totten Glacier, the fastest moving mass of ice in East Antarctica, was shrinking as a result of warming ocean water.
The enormous glacier holds enough water to raise the sea level by around three metres (11ft).
“Totten is the biggest glacier in East Antarctica, so it attracts most of the research focus,” said Catherine Walker, a glaciologist at Nasa’s Goddard Space Flight Centre in Maryland, US, who was presenting the findings at a meeting of the American Geophysical Union (AGU).
“But it turns out that other nearby glaciers are responding in a similar way to Totten,” she added.
Researchers found that four glaciers west of Totten, in an area facing Vincennes Bay, had dropped in surface height by an average of nearly three metres (9ft) since 2008 – before that year there had been no measured change in elevation.
To the east of Totten, glaciers along the Wilkes Land coast have roughly doubled their rate of lowering since around 2009, with their surface falling about 0.25 metres (0.8ft) every year.
Scientists say the level of ice loss is small compared with glaciers in West Antarctica, but points to nascent and widespread change in the east.
“This change doesn’t seem random; it looks systematic,” said Alex Gardner, a glaciologist with Nasa’s Jet Propulsion Laboratory.
“And the systematic nature hints at underlying ocean influences that have been incredibly strong in West Antarctica.
“Now we might be finding clear links of the ocean starting to influence East Antarctica.”