From EurekAlert.com a look at the starting and ending factors of the last ice age in Britain from Dr. David Evans.
Egg-shaped legacy of Britain’s mobile ice-sheet
The ice sheets that sculpted the landscape of northern Britain moved in unexpected ways and left distinctive egg-shaped features according to new research.
Scientists from Durham University have deciphered the landforms and created a model of the British and Irish Ice Sheet (BIIS) which reveals for the first time how glaciers reversed their flows and retreated back into upland regions from where they originated.
These ice sheet flow patterns created a unique ‘overprinting’ of British glacial landforms 26,000 to 16,000 years ago, leaving distinctive egg-shaped features called ‘drumlins’ across our fields and valleys.
Drumlin-strewn landscapes can be seen along the A66 road through the Eden Valley (near Appleby) and across the Solway and Lake District lowlands, the Northern Pennines, and through the Tyne Gap and the valleys of southern Scotland.
The research, funded by the Natural Environment Research Council, is published in the Journal, Quaternary Science Reviews.
During the last glacial maximum, around 21,500 years ago, the BIIS built up on the high land of the Lake District, north Pennines and Scottish Southern Uplands; as more snow fell in these areas and local ice caps thickened, glaciers flowed into surrounding lowlands as expected.
The new reconstruction of the movement of the ice sheet, compiled by the Durham University research team, reveals an unusual twist once the glaciers filled lowland areas. As the ice sheet evolved from the coalescence of the upland ice caps, it flowed out towards the Irish Sea, eventually becoming so thick over the Solway Lowlands that it reversed its flow back up the valleys, re-adjusting the landforms it had created during earlier stages of growth.
The rolling terrain that walkers can see along many parts of the Pennine Way and that drivers can see along the route of the M6 motorway provide examples of this glacial landscape.
The research team led by Dr David Evans, from the Department of Geography at Durham University plotted the progress of the ice sheet between 26,000 and 16,000 years ago. Using maps of superimposed drumlins, ancient temperature records, and computer modeling, the team profiled the size, extent and flow directions of the ice-sheet, and reconstructed its movement through time.
Dr Evans said: “The stereotypical image of Ice-age Britain is of ice rolling in from the Arctic but this is not an accurate description of what happened. Britain was cold enough for ice to form in the uplands, growing and coalescing to produce an elongate, triangular-shaped dome over NW England and SW Scotland around 19,500 years ago.
“The Ice sheet then moved downhill, as one would expect. Our findings show that the lowland ice became so thick that it began to move in unexpected ways – the ice moved back uphill from where it originally came. Recession and a series of complex ice flow directional switches took place over relatively short timescales.”
Four major ice flows have been identified across northern Britain and Dr Evans’ team has produced case studies of drumlin and lineation mapping that show that these glacier flow directions switched significantly through time.
The pressure of the ice flows became sufficient to deform sediments at the base of the ice sheet, resulting in the moulding of the sediment into streamlined landforms like drumlins.
Many of the fields of northern England and southern Scotland have been cleared of their boulders during hundreds of years of agricultural improvement. This stony, unworkable material was called ’till’, the term now used by glacial researchers to describe sediment laid down at the base of ice sheets and glaciers.
A close look at many of the distinctive stone walls in the region of the North Pennine chain, often reveals the use in their construction of Scottish and Lake District ‘erratics’, stones which are quirks of glacial ice flows. Many of these erratic stones were transported hundreds of miles away from their origin by the complex and often reversed movement of the glaciers.
Dr Evans says: “The Durham model shows that an ice sheet can reverse its flow in a hundred or so years and when this happens, it creates unique features in our landscape. Elongated drumlins and meltwater channels in northern England and southern Scotland provide evidence of this unique phenomenon. ”
“The ice sheet had no real steady state but rather was mobile and comprised constantly migrating dispersal centres and ice divides which triggered significant flow reversals. The occurrence of Lake District material in Pennine dry-stone walls is a clear indication that during the last glaciation of Britain, ice sheet flow directions were at times reversed.”
Five stages of glaciation in Northern Britain:
Build up of snow and ice on higher ground.
Ice thickening results in ice flow down valleys that drain the uplands.
Valley ice from different upland sources fuse or coalesce.
Ice thickens in the lowlands and the ice sheet dispersal centres migrate, forcing ice flows to become independent of the underlying hills and valleys.
In some areas the ice flows reverse and in places (e.g. Vale of Eden) actually move back uphill.
Four flows of glaciation in northern Britain:
Phase I flow was from a dominant Scottish dispersal centre, which transported Criffel granite erratics to the Eden Valley and forced Lake District ice eastwards over the Pennines at Stainmore. Prior to this phase local ice caps over the Lake District and North Pennines forced ice to flow into the lowlands, the reverse of Phase I flow.
Phase II involved easterly flow of Lake District and Scottish ice through the Tyne Gap and Stainmore Gap with an ice divide located over the Solway Firth.
Phase III was a dominant westerly flow from upland dispersal centres into the Solway lowlands and along the Solway Firth due to draw down of ice into the Irish Sea basin;
Phase IV was characterised by unconstrained advance of Scottish ice across the Solway Firth. At this time, and ice sheet had started to uncouple again to produce localized ice retreat back on to the high land of the Lake District and North Pennines (the ice retreated from whence it came). This period saw: a) the development of a vast lake (Glacial Lake Carlisle) over the Solway Lowlands dammed by the Scottish ice advance; b) the cutting of the Melmerby meltwater channels on the Pennine Escarpment by water draining along a glacier margin retreating up the Eden Valley; and c) the deposition of the Brampton kame belt, the largest accumulation of glacial sand and gravel in England.
They claim the glacier behavior observed is “unexpected”, but if you understand the dynamics of ice or water flow and understand the topography, you would understand that the “reversing” of flow is a well known and documented effect. Only with water it happens very quickly, but when you have something as slow moving as ice it happens very slowly. They should go play with some physical water models at the Wallingord Institute and see it first hand.
Hey, I live in that basket of eggs!
BBC NI did a great series last year called “Blueprint” in which they looked at how the landscape of Northern Ireland was formed. Well worth a look. I hope these links will work.
Depth of ice and glaciers:
http://www.bbc.co.uk/blueprint/media/killard_point.shtml
Drumlins (audio only): http://www.bbc.co.uk/blueprint/media/drumlin_country_down_audio.shtml
John F. Hultquist (12:46:05) :
I don’t believe this article proposes any new explanation of how drumlins form. It uses drumlims to determine the direction of ice movement. Nothing new there either.
As for their cause, I would suggest that evidence indicates they are caused when an ice sheet over runs the outwash that is deposited in front of the sheet. Remember, there is still melting going on (especially in summer) and this produces sediment in an apron across the terminus and extending in front of it for some distance.
I don’t think ice sheets spreading from the Arctic to cover Europe and N America has ever been accepted science.
I was taught that the ice sheets originated in the mountain and upland areas and spread into the low lands.
This 1911 edition of Encyclopedia Brittanica shows this in a map.
http://www.1911encyclopedia.org/Glacial_Period
deadwood (17:27:55) :
Too vague. What are the details of the mechanism of formation? Did the ice smooth and elongate an existing structure, such as the debris under a moulin; or did the ice have to move in both directions to get the form?
Philip_B (18:38:22) :
The maps here are much better:
http://www.canadiangeographic.ca/Atlas/themes.aspx?id=first&sub=first_basics_diversity&lang=En
The best drumlins I have seen are just to the NW of the Mountains of Mourne on N Ireland. They are almost surreal.
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The ice map linked to by Philip_B (18:38:22) : agrees with one of our childrens old school maps which both show Eastern Siberia as free of ice. Curious.
Andrew P (11:12:40) : Interesting, but I’d like to see some photographic / topographic evidence of this, and even if correct, I doubt glaciers would start to reverse direction anywhere there was a significant gradient. But I suppose that there are few areas of Albion’s Plain where this is the case.
I could easily see a case where ice / glaciers form on a mountain, headed down hill on all sides. Later a larger ice sheet joins in from, say, the north. Now the glacier that had been headed north gets shoved back, and the ones headed east and west get deflected to the south. Just a collision of flowing streams.
And this is supposed to be NEWS? All this has been known for decades, including the fact that the ice-divide moves from the mountain chains where the original ice-caps form towards the center of the ice-cap as it grows. It is all covered in standard text-books like Nilssons “The Pleistocene”.
I live in the shadow of two drumlins that flank the River Wyre (UK) just south of its estuary. There is also a small but prominent end morraine about five miles south of the drumlins. The area in which I live is not far from where some of the action in Dr. Evans’ book took place. I’ve been to Clew Bay too (County Mayo in western Ireland). Amazing geology and breathtaking scenery. Not far away is Achill Island where the largest sea cliffs in Europe can be found. Well worth a visit if you get the chance.
End of travelogue…
Of course the Ice flows from the Artic, look at a globe. The Arctic is clearly at the top with Great Britain one third of the way round the side 😉
OK Smokey (14:32:15) :, I now can’t resist the tale of a geologist who wrote in his report that the valley was “littered with erratic blocks.” Unfortunately the typist apparently suffered a Freudian slip and spoonerised it!
Richard111 (22:34:42) :
“The ice map linked to by Philip_B (18:38:22) : agrees with one of our childrens old school maps which both show Eastern Siberia as free of ice. Curious.”
Not very curious, it takes a lot of snow to make an icecap. Eastern Siberia (and inland Alaska) are rather dry today, and were much drier then, when most of the Bering Sea and the Laptev Sea was dry land.
There were glaciers in the mountains but the lowlands as far east as the Mackenzie valley were very dry steppe.
He’s a Wiki on Wallowa lake in NE Oregon. BTW its glaciation was North to South.
http://en.wikipedia.org/wiki/Wallowa_Lake
yes it too, ebbed and flowed…
Grr, meant South to North-new trifocals-that’s it…
UK Sceptic (03:26:56) :
Not far away is Achill Island where the largest sea cliffs in Europe can be found.
Not quite, you have to go to the Faroe Isles for that. 🙂
Phil. (15:32:33) :
UK Sceptic (03:26:56) :
Not far away is Achill Island where the largest sea cliffs in Europe can be found.
Not quite, you have to go to the Faroe Isles for that. 🙂
I’ve climbed up to those cliffs on Achill Island and peeked over the edge. It was bladdy windy up there too. Scary, very, very scary. Achill Island is a wonderful place for a short holiday though. Often has clearer weather than mainland Ireland, and stunning views in all points of the compass from the hilltops.
http://www.panoramio.com/photo/20051505