1. Standard Grade: Glaciation unit.

2. Unit aims: To find out what we mean by glaciation.
To find out how landscapes have been changed by glaciation.
To be able to identify different glacial land features.
To see how humans use glaciated landscapes.

3. THE ICE AGE.
What is Glaciation?

4. Glaciation
To understand glaciation we must understand that the planet earth has gone through a number of ice ages.

5. Climate Change is not new!
From “Glaciers” by John Gordon
Colin Baxter Publications, 2001

6. Interglacial periods Glacial periods From “Glaciers” by John Gordon
Colin Baxter Publications, 2001

7. THE ICE AGE
THE LAST ICE AGE BEGAN ABOUT 2 MILLION YEARS AGO!! AND LASTED UNTIL ABOUT 10,000 YEARS AGO.
DURING THE ICE AGE THE CLIMATE BEGAN TO GET COLDER AND ICE SPREAD OUT FROM THE NORTH AND SOUTH POLE.
HEAVY SNOW FELL ON THE MOUNTAINS OF BRITAIN AND EUROPE.
THIS LEAD TO THE FORMATION OF GLACIERS
THESE GLACIERS SHAPED THE LAND AROUND THEM AND WHEN THEY MELTED WE WERE LEFT WITH GLACIAL LAND FORMS.

8. What is a Glacier?
A GLACIER IS FORMED WHEN SNOW FALLS ON AN AREA FOR A LONG PERIOD OF TIME WITHOUT MELTING AWAY.
OVER TIME THIS SNOW COMPACTS AND IS TURNED INTO GLACIAL ICE.
DUE TO ITS EXTREME WEIGHT AND THE FORCES OF GRAVITY THE GLACIER WILL BEGIN TO MOVE SLOWLY DOWNHILL.
It is sometimes referred to as a river of ice.

12. How glaciers change the landscape
Erosion
Transportation
Deposition
When the ice
moves material.
When the ice
drops material.
When the ice wears
away the land.

13. Important terms: Freeze Thaw:
This is when water gets into cracks in the rock and then freezes. Because it expands it then breaks the rock away.

14. Important terms: Plucking:
The ice freezes around chunks of rock at the bottom and sides of the glacier. As the ice then moves it tears the rock away with it.

15. Important terms: Abrasion:
All of the material under the glacier is known as moraine. This mix of rocks and other material act like sandpaper wearing away the valley floor beneath and at the sides of the glacier.

16. Task. Draw a cartoon picture that will remind you of: Plucking
Abrasion
Freeze thaw.
(Hint: Think of what they do, is there anything in your life that is similar?)

17. Glaciers are extremely powerful!
They move through valleys like a bulldozer eroding everything in their way.
What would happen if a bulldozer came through the class?
EVERYTHING would just be pushed out of the way. Because of this we say that the material moved by a glacier is unsorted.

18. Glacial Erosion
As the glacier is so powerful it creates many features of Glacial erosion.
When answering a question like this it is very similar to answering a river question you need:
A description
Diagrams
Labels.

19. Corrie

20. Arete

21. Pyramidal peak

22. U-shaped valley

23. hanging valley

24. Formation of a Corrie
Snow collects in a natural hollow on the side of a mountain. Over time, the weight of the snow compacts and it turns into ice.
The hollow is deepened and widened by the corrie glacier through the processes of abrasion and plucking.

25. Formation of a Corrie
Plucking occurs on the back wall making it steep and abrasion occurs on the bottom of the Corrie making it deeper.
This over-deepening leads to an ‘armchair’ shape characteristic of a corrie and causes a ‘rock lip’ to be formed.
Freeze thaw occurs and makes the peak jagged.

26. Formation of a Corrie
The ice eventually moves out over the rock lip and flows down the valley as a glacier.
When the glacier melts a Corrie is left. It has an “armchair” shape, with steep back walls and a deep bottom.
A Corrie Lochan or Tarn is often left in the corrie too.

27. Diagrams

28. Diagrams for the corrie.
CREVASSE

30. Corrie Task: What labels could you add to this. If
it was a field sketch?
Corrie

32. Arete

33. Formation of an Arete.
An Arete is formed when two corries meet at the back of one another.
Snow collects in two natural north facing hollows on the side of a mountain. Over time, the weight of the snow compacts and it turns into ice.

34. Formation of an Arete.
The two hollows are deepened and widened by the corrie glacier through the processes of abrasion and plucking.
Plucking and freeze thaw cause the back walls to become steep.
The two back walls meet and a “knife edge” ridge is formed.

36. Pyramidal peak

37. Formation of a pyramidal peak.
How do you think this could be formed?
Think about what we have leant so far.

38. THE FORMATION OF A U-SHAPED VALLEY
BEFORE GLACIATION.
V-SHAPED VALLEY.
CAUSED BY A RIVER.
INTERLOCKING SPURS.

40. DURING GLACIATION.
GLACIER MOVES THROUGH THE VALLEY LIKE A BULLDOZER.
THROUGH PLUCKING AND ABRASION THE VALLEY IS MADE DEEPER, WIDER AND STRAIGHTER.

42. AFTER THE GLACIER MELTED THE VALLEY HAD CHANGED.
THE VALLY WALLS HAVE BEEN DEEPENED AND THE VALLEY FLOOR IS FLAT GIVING IT ITS NAME.
THERE IS OFTEN A THIN ‘MISFIT STREAM’, GIVEN IT’S NAME BECAUSE IT COULD NOT HAVE CREATED THE VALLEY ITSELF.
LOOK AT YOUR DIAGRAM WHAT OTHER FEATURES CAN YOU SEE?

43. New class.

44. Glaciation Recap
On the piece of paper you have name each of the following features of Glacial erosion.

49. Carousel: Glaciation On your paper you will have a number. 1: Corrie
2: U-Shaped valley
3: Arete
4: Pyramidal peak
5) hanging valley
You will have 1 minute to answer the question the best you can, then you will pass it on.

50. Glacial Deposition.
Glacial deposition is material that is transported by the glacial then dropped (deposited) when the glacier begins to melt.
What do we mean by
glacial deposition?

51. Glacial Deposition. There are 2 kinds of Glacial deposition.
And
Fluvio-glacial deposition.

52. Glacial Deposition. Glacial Deposition = Transported by the ice.
Unsorted
Large, angular rocks.
Known as Moraine or Boulder clay.

53. Glacial Deposition. Fluvio-glacial deposition =
Transported by water (melt water)
Sorted material (smaller bits go further)
Sands and Gravel

54. Glacial Deposition.

55. Glacial Deposition.

56. moraine
Lateral Moraine
Medial Moraine
Ground Moraine
Terminal Moraine

57. moraine
Lateral moraine is found on the sides of the glacier. Scree, from frost shattering, is an important source.
Medial moraine is found down the middle of the glacial surface and occurs when the inner lateral moraines of two glaciers join.
Ground moraine is found at the base (bottom) of the ice. It is also called till or boulder clay.
Terminal moraine is found in front of the snout of the glacier if it is stationary. It represents the maximum advance of the ice.

58. fluvioglacial deposition glacial deposition glacial deposition
lateral and
medial moraine
ground
moraine
fluvioglacial
deposition
glacial deposition
snout
outwash sand
and gravel
terminal moraine

59. Lesson starter:
What is moraine?
What different types of moraine do you get?
With the person next to you (or closest to you) give yourself a number 1 or 2.
You will have 1 minute to answer the questions that come up in the boxes.
How is a U shaped valley formed?
How is an Arete formed?
How is a corrie formed?

60. Terminal Moraine

61. moraine
Lateral Moraine
Medial Moraine
Ground Moraine
Terminal Moraine

62. moraine
Lateral moraine is found on the sides of the glacier. Scree, from frost shattering, is an important source.
Medial moraine is found down the middle of the glacial surface and occurs when the inner lateral moraines of two glaciers join.
Ground moraine is found at the base (bottom) of the ice. It is also called till or boulder clay.
Terminal moraine is found in front of the snout of the glacier if it is stationary. It represents the maximum advance of the ice.

63. Formation of terminal moraine.
Material such as gravel and rock is pushed along by the glacier.
The glacier pushes everything in its way and therefore the material is unsorted.
The material gathers at the front of the glacier.
When the glacier begins to melt the moraine is left at the furthest point that it travelled.
How do you think terminal
moraine is formed?

64. Terminal moraine diagrams:
Using the white boards draw three diagrams that help to explain terminal moraine.

65. Formation of a Moraine dammed lake
Although you can’t
See it in this picture
The terminal moraine is
Blocking this valley and causing
The lake.

66. ? This lake is far deeper than the land after
the rest of the valley. How do you think this
is possible? What did the glacier do here?

68. Formation of a moraine dammed lake
A glacier moves down a valley over hard rock eroding it.
The glacier movers onto an area of soft rock and the process of abrasion is much greater.
The soft rock is deepened much more than the hard rock.
The glacier moves onto another area of hard rock and pushes moraine in front of it.
When the glacier melts the terminal moraine acts as a dam and creates a ribbon lake.
It is called a ribbon lake due to the fact it is long and thin.

70. Formation of an Esker
Esker

71. Formation of an Esker
How do you
think this esker
was formed?

72. Formation of an Esker Clue: An esker is a steep-sided, long,
winding ridge, made up of gravel and sand.

73. Glacial streams are found under the ice-sheet
Glacial streams are found under the ice-sheet.They are loaded with debris (sand and gravel) carried by the meltwater. As the ice-sheet retreats, the river deposits its load.
esker

74. Formation of an esker.
An esker is a steep-sided, long, winding ridge, made up of gravel and sand.
It is formed when a river of melt-water runs through a glacier.
The river deposits sorted material that it can no longer carry.
The material is small and rounded by the water.
When the glacier melts the river is also lost from the landscape and the esker is left.

75. The outwash plain Direction of Glacier The outwash plain
Terminal moraine

76. The outwash plain
The outwash plain is formed from melt water after a glacier begins to retreat.
It almost always comes after terminal moraine.
It is made up of fine sands and gravel.
The material is sorted as it is created carried by water.
It is not very fertile.

77. Formation of Kettle holes
This is a kettle hole.
It is a fairly shallow circular
pool of water on a
glaciated landscape

78. Formation of Kettle holes
The mystery is how were they formed?
You have 3 minutes to come up with an idea.
Formation of Kettle holes
You will often find a few of them
together on the landscape

80. 5 2 3 6 1

81. Land use:
See PP “Land use in Glaciated uplands”