Location of the crater in Victoria Land, East Antarctica at about 73ºS and 156ºE. The colour scale shows height derived from CryoSat data. The crater is located within the white box.
ESA’s CryoSat satellite has found a vast crater
in Antarctica’s icy surface. Scientists believe the crater was left
behind when a lake lying under about 3 km of ice suddenly drained.
Far below the thick ice sheet that covers Antarctica, there are lakes of
fresh water without a direct connection to the ocean. These lakes are
of great interest to scientists who are trying to understand water
transport and ice dynamics beneath the frozen Antarctic surface – but
this information is not easy to obtain.
One method is to drill holes through kilometres of ice to the water – a
difficult endeavour in the harsh conditions of the polar regions.
But instead of looking down towards the ice, a team of European
scientists is looking to the sky to improve our understanding of
subglacial water and its transport.
By combining new measurements acquired by CryoSat with older data from
NASA’s ICESat satellite, the team has mapped the large crater left
behind by a lake, and even determined the scale of the flood that formed
it.
From 2007 to 2008, six cubic kilometres of water – about the same amount
that is stored in Scotland’s Loch Ness – drained from the lake, making
it the largest event of its kind ever recorded.
That amount of water equals a tenth of the melting that occurs beneath Antarctica each year.
Since the end of 2008, the lake appears to be refilling but six times slower than it drained. It could take decades to reform.
The study, published recently in Geophysical Research Letters, highlights CryoSat’s unique capacity to map changes in Antarctica’s subglacial lakes in 3D, and sheds new light on events at the base of the ice sheet.
CryoSat carries a radar altimeter that can ‘see’ through clouds and in the dark, providing continuous measurements over areas like Antarctica that are prone to bad weather and long periods of darkness.
The radar can measure both the area and depth of ice craters in high resolution, allowing scientists to calculate its volume accurately.
That amount of water equals a tenth of the melting that occurs beneath Antarctica each year.
Since the end of 2008, the lake appears to be refilling but six times slower than it drained. It could take decades to reform.
The study, published recently in Geophysical Research Letters, highlights CryoSat’s unique capacity to map changes in Antarctica’s subglacial lakes in 3D, and sheds new light on events at the base of the ice sheet.
CryoSat carries a radar altimeter that can ‘see’ through clouds and in the dark, providing continuous measurements over areas like Antarctica that are prone to bad weather and long periods of darkness.
The radar can measure both the area and depth of ice craters in high resolution, allowing scientists to calculate its volume accurately.
“Thanks to CryoSat, we can now see fine details that were not apparent
in older satellite data records,” said Dr Malcolm McMillan from the UK’s
University of Leeds and lead author of the study ‘Three-dimensional mapping by CryoSat-2 of subglacial lake volume changes’.
With every subglacial lake, there is hope of finding prehistoric marine life. The rapid draining and apparent refilling of this lake, however, suggests this was not the first time water has drained from the lake.
“It seems likely that the flood water – and any microbes or sediments it contained – has been flushed into the Southern Ocean, making it difficult to imagine that life in this particular lake has evolved in isolation,” said Prof. Andrew Shepherd, a co-author of the study.
About 400 lakes have been discovered at the base of the Antarctic ice sheet. When they drain, they disrupt subglacial habitats and can cause the ice above to slide more quickly into the sea.
With every subglacial lake, there is hope of finding prehistoric marine life. The rapid draining and apparent refilling of this lake, however, suggests this was not the first time water has drained from the lake.
“It seems likely that the flood water – and any microbes or sediments it contained – has been flushed into the Southern Ocean, making it difficult to imagine that life in this particular lake has evolved in isolation,” said Prof. Andrew Shepherd, a co-author of the study.
About 400 lakes have been discovered at the base of the Antarctic ice sheet. When they drain, they disrupt subglacial habitats and can cause the ice above to slide more quickly into the sea.
ESA
Guillermo Gonzalo Sánchez Achutegui
ayabaca@gmail.com
ayabaca@hotmail.com
ayabaca@yahoo.com
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