Antarctic sea ice might be three times as thick as we thought, according to data that may help narrow down one of the biggest uncertainties in the global climate system
The plot thickens, or should it be the ice?
The most
detailed and comprehensive 3D map so far of Antarctica's winter sea ice
shows that big parts of it are much thicker and more smashed-up than we
thought, in fact, three times as thick.
Data from this map will help us
fill in some of the biggest gaps in our global climate models.
A preliminary 3-D map produced from multibeam sonar data collected by the AUV under an ice floe on 4 October 2012.
The map shows a typical ‘lawnmower’ grid of about 150 x 150 m and the depth bar on the right shows deeper ice in red (up to about 10 m below the surface) and shallower ice in blue.
(Image: AUV team)
The growth of Antarctic sea ice, which reached an all-time record extent this year, is one of the biggest geophysical changes that happen on Earth each year.
"It expands from about four to 19 or 20
million square kilometres each year.
That's more than twice the area of
Australia," says Rob Massom
from the Australian Antarctic Division in Hobart.
"And of course this
has an immense effect on the ocean surface: it caps the interaction
between the atmosphere and the ocean, and it creates a white ocean
surface, so affects the energy balance."
Exactly how that winter ice forms – how
thick it gets and by what mechanisms – has remained a mystery, leaving a
big uncertainty in our current climate models.
For the first time in East Antarctica (2012), climate scientists have produced a three-dimensional map of the surface beneath a sea ice floe, revealing an inverted complex topography evocative of lakes and mountain ranges.
Maps revealing more winter Antarctic sea
ice in recent years are based on 2D images taken from satellites.
But
the trouble with such data, says Guy Williams
from the University of Tasmania also in Hobart, is that "we don't get
thickness and so therefore we don't get total change in sea ice volume".
The Autonomous Underwater Vehicle (AUV) being lowered off the stern of the Aurora Australis during SIPEX-II in 2012.
The data from the AUV is used to make 3-D maps of the underside of the sea ice.
(Photo Wendy Pyper)
Instead, Williams and colleagues used a robot
submarine made by scientists at Woods Hole Oceanographic Research
Institution in the US to produce detailed 3D maps of huge swathes of
Antarctic sea ice.
Using sonar, the submarine mapped three areas from
different sides of the continent, which together make up an area
equivalent to twice that of the UK (see video).
A view of the Autonomous Underwater Vehicle at work under the ice.
The ship's propeller is visible.
(Photo: ROV team)
On thick ice
"We were surprised by what we saw," says
Williams.
They saw ice that was much thicker than they expected, though
the survey was not comprehensive enough yet to make strong conclusions
about all the winter sea ice in Antarctica.
Previous
estimates based on a number of very limited – and probably biased –
methods like ship inspection and drilling suggested that only 20 per
cent of the winter sea ice was thicker than 1 metre. This study found
that 90 per cent of it is more than 1 metre thick, and indeed, 40 per
cent is thicker than 3 metres.
The data also hints at how the ice might form, which will be crucial for building future models.
If ice were left to form on still water,
it would grow to about 1 metre, says Williams.
Once it gets that thick,
the water underneath is insulated from the air and doesn't easily
freeze.
This under ice view shows the thick, jumbled structure of ice under an ice floe, which makes it very hard to dig holes through to the ocean surface. (Photo: ROV team)
But the Antarctic sea ice is being buffeted by strong winds, which are being made even stronger by global warming.
So it's getting broken up and pushed up on top of itself, making room for more ice to form.
"We found that 50 per cent of the area was
deformed and that was contributing to over three-quarters of the
volume," says Williams.
An aerial photograph taken with the high resolution digital camera in the helicopter, showing part of a survey area or ‘transect’ to the left of the ship with scientists working on the ice.
The roughness of the snow cover is discernible.
The ever-growing winter sea ice isn't entirely surprising.
But working out which factors are driving this growth will help scientists figure out what will happen in the future.
Williams says that one hypothesis was that
ice formation could be driven largely by rising coastal winds breaking
up the ice, allowing more to form in the gaps.
People are starting to
wonder if the deformation processes are changing" he says.
"It's extraordinarily significant work,"
says Massom.
"These autonomous underwater vehicles, they're giving an
unprecedented view. It's almost like looking at the dark side of the
moon in terms of sea ice."
Journal reference: Nature Geoscience, doi.org/xcg
Links :
Links :
- BBC : Antarctic sub gauges sea ice thickness
No comments:
Post a Comment