Periglacial Features (AQA A Level Geography)

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A periglacial landscape is characterised by permanently frozen ground or permafrost and is defined as:

‘An area where soil and rock has not risen above 0°C for at least 2 consecutive years'

Permafrost is not controlled by soil moisture and ice does not need to be present
Permafrost in Siberia is up to 1500m deep and Northern Canada has depths of 700m of permafrost
Most permafrost water stays frozen as ground ice

Comparison of Glacial and Periglacial Areas

Action	Periglacial	Glacial
Altered by ice	Within the ground	Above ground
Landforms created through	Freeze/thaw weathering and mass movement	Erosion and deposition
Found	Outer margins of cold environments	High altitudes and latitudes

periglacial-permafrost

Image showing types of permafrost found in periglacial areas

The periglacial landscape is littered with angular rocks across its surface
Quickly weathered through freeze-thaw processes, these areas are called felsenmeer, meaning 'field of rocks' in German
Seasonal melting at the surface produces the active layer of between 2cm to 5m in depth
However, any meltwater cannot drain through the impermeable permafrost below, and sits on the surface as thaw lakes
Thaw lakes are common in these poorly drained areas and as the water continues to absorb solar radiation, so the depth and size of these lakes increase in size

Solifluction is a form of mass movement
There are two types of solifluction:
- Fast
- Slow
Fast
- When an active layer on a slope becomes heavily waterlogged due to melting, gravity acts to pull it downhill
- This flow of material is called solifluction and produces characteristic lobes on the sides of the slopes
- The steeper the slope, the faster and further the material will travel, and the larger the lobe will be
- Movement can be up to 10 cm/yr
Slow
- Also known as solifluction or soil/frost creep occurs when water in the soil expands as it freezes
- This expansion forces soil particles to rise perpendicular to the ground (frost heave)
- As the ground thaws, the particles are dropped vertically downwards (due to gravity)
- With each repeated cycle, soil particles gradually 'creep' downslope at a rate of a few cm/yr

Frost action periglacial processes include:
- Ground ice
- Frost contraction and ice wedges
- Frost heave
- Freeze-thaw
Ground ice
- The most common form of ground ice is pore ice
- It develops in the pore spaces between soil and rock particles, where meltwater has accumulated and frozen
- Needle ice are thin slivers of ice and can be several cm long
- Found mostly in moist soil where temperatures drop below freezing at night
- Needle ice helps with loosening material for erosion and moving soil particles in soil creep
Frost contraction and ice wedging
- As temperatures drop, the active layer freezes and contracts
- Crack begin to form in the permafrost as a result
- When the active layer thaws, meltwater will fill the cracks
- The cold of the permafrost freezes the water in the crack, forming ice-wedges
- Continued melting and thawing can enlarge the crack to sizes of 3m wide and 10m deep

periglacial-ice-wedging

Ice wedge formation over time

Frost heave
- Frost heave occurs when soil particles or small stones are forced to the surface by ground ice
- Freezing occurs from the surface downwards, which helps ice crystals to form either within the soil pores or as ice needles
- As the ground ice expands, these crystals force soil and stones to the surface
Freeze-thaw
- The action of freeze-thaw weathering (frost shattering) results in rough, angular broken rocks
- At the foot of a slope, these rocks are known as scree
- Periglacial regions are also characterised by blockfields or felsenmeer, caused through quick freeze-thaw action of temperatures of between -5° to -14°C

Always remember that these processes are not one off occurrences. They are cyclical and take number of years to complete.

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