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‘MRI’ scan reveals spectacular ice age landscapes beneath the North Sea


Spectacular ice age landscapes beneath the North Sea have been discovered using 3D seismic reflection technology. Similar to MRI (magnetic resonance imaging) the images reveal in unprecedented detail huge seafloor channels -- each one 10 times wider than the River Thames.


‘MRI’ scan reveals spectacular ice age landscapes beneath the North Sea
A map of the North Sea showing the distribution of buried channels (tunnel valleys) that have been
 previously mapped using 3D seismic reflection technology. The limit of the last ice sheet 
to cover the UK (around 21,000 years ago) is overlain [Credit: James Kirkham]

For the first time an international team of scientists can show previously undetectable landscapes that formed beneath the vast ice sheets that covered much of the UK and Western Europe thousands to millions of years ago. These ancient structures provide clues to how ice sheets react to a warming climate. 




So called tunnel valleys, buried hundreds of metres beneath the seafloor in the North Sea are remnants of huge rivers that were the 'plumbing system' of the ancient ice sheets as they melted in response to rising air temperatures.


‘MRI’ scan reveals spectacular ice age landscapes beneath the North Sea
Comparing the resolution of the new high-resolution 3D seismic reflection data to previous 3D seismic
 data from this region. The new data revolutionises our ability to image these buried channels and
their internal structures, as demonstrated by the contrast between the left and right of the image
[Credit: James Kirkham, BAS]

Lead author James Kirkham, from British Antarctic Survey (BAS) and the University of Cambridge, says: "The origin of these channels was unresolved for over a century. This discovery will help us better understand the ongoing retreat of present-day glaciers in Antarctica and Greenland. In the way that we can leave footprints in the sand, glaciers leave an imprint on the land upon which they flow. Our new cutting edge data gives us important markers of deglaciation. "




Dr Kelly Hogan, co-author and a geophysicist at BAS, says: "Although we have known about the huge glacial channels in the North Sea for some time, this is the first time we have imaged fine-scale landforms within them. These delicate features tell us about how water moved through the channels (beneath the ice) and even how ice simply stagnated and melted away. It is very difficult to observe what goes on underneath our large ice sheets today, particularly how moving water and sediment is affecting ice flow and we know that these are important controls on ice behaviour. As a result, using these ancient channels to understand how ice will respond to changing conditions in a warming climate is extremely relevant and timely."


‘MRI’ scan reveals spectacular ice age landscapes beneath the North Sea
Close up image of an esker (a sedimentary cast of a meltwater channel formed beneath an ice sheet),
 discovered within a tunnel valley using the new 3D seismic reflection data. In this image, the esker
is shown in context of the high-resolution 3D seismic data which can be ‘sliced’ both vertically
and horizontally to reveal ancient glacial landscapes buried beneath the seafloor of the North Sea.
The reflections of the curved tunnel valley sides can be seen in the top of the image
[Credit: James Kirkham]

3D seismic reflection technology, which was provided by industry partners, uses sound waves to generate detailed three-dimensional representations of ancient landscapes buried deep beneath the surface of the Earth, in a similar manner to how magnetic resonance imaging (MRI) scans can image structures within the human body. The method can image features as small as a few metres beneath the surface of the Earth, even if they are buried under hundreds of metres of sediment. 




The exceptional detail provided by this new data reveals the imprint of how the ice interacted with the channels as they formed. By comparing these ancient 'ice fingerprints' to those left beneath modern glaciers, the scientists were able to reconstruct how these ancient ice sheets behaved as they receded.




By diving into the past, this work provides a window into a future warmer world where new processes may begin to alter the plumbing system and flow behaviour of the Antarctic and Greenland ice sheets.


The findings are published this week in the journal Geology.


Source: British Antarctic Survey [September 08, 2021]



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