Erosional Landforms and Landscapes Flashcards
(EP) Sub-aerial weathering (freeze-thaw)
Freeze-thaw or frost shattering, happens when rocks contain cracks and where temperatures regularly dip below the freezing point.
Any water in the cracks will freeze as the temperature drops, which expands as it freezes, exerting pressure on the crack.
Repeated freezing and thawing of water will eventually break the rock apart and it will pile up as scree at the foot of the slope
When trapped under the ice, the sharp, angular rocks are an effects abrasive tool.
(EP) Carbonation
Is an important process in cold environments and occurs in rocks with calcium carbonate, such as chalk and limestone.
Rainfall (pH of 5.6 ) combines with dissolved carbon dioxide or organic acid to form a weak carbonic acid solution.
Calcium carbonate (calcite) in rocks, reacts with the acidic water and forms calcium bicarbonate, which is soluble and removed in solution by meltwater
The effectiveness of the solution is related to the pH of the water as carbon dioxide is more soluble at lower temperatures.
(EP) Nivation
A blanket term for active processes that occur at the edges of snow patches.
The processes include the physical and chemical weathering that occur underneath patches of snow.
Fluctuating temperatures and meltwater promote chemical weathering and freeze-thaw action.
Weathered material is transported with the summer meltwater.
Repeated cycles of melting, freezing, and transportation form nivation hollows.
Saturated debris (due to summer meltwater), destabilises the slope and slumping may occur
nivation-process.
(EP) Plucking
Movement of the ice mass generates friction and heat, causing the base of the glacier to slightly melt.
This meltwater freezes around rocks and stones under the glacier.
As the glacier moves forward, it ‘plucks’ this ice, pulling the rock away.
(EP) Quarrying
Similar to plucking in that pieces of bedrock are transported and eroded within the glacier.
As a glacier moves through a valley, pressure is exerted on the sides and bottom of the valley.
Friction causes melting, allowing meltwater to surround the rocks in the valley.
As the meltwater refreezes, it pulls on the ice and quarry’s the sides of the valley away.
(EP) Abrasion
Abrasion occurs as bits of rocks, stones, and boulders stuck in the ice, grind against the rock below the glacier wearing it away and producing rock flour.
Striation (scratch) marks arise when rocks beneath the glacier are transported across the bedrock.
It is the weight of the ice in a glacier that forces it to advance downhill, eroding the landscape as it moves.
Ice advances in a circular motion called a rotational slip, which hollows and deepens the landscape.
(EP) Crushing
This happens when pressure exerted by the ice mass and its debris, crushes the bedrock surface leaving chattermarks fractures as it moves over the bedrock.
(EP) Basal Melting
As pressure increases, the melting point of water decreases.
The thicker the glacier, the greater the pressure; the lower the temperature at which water melts.
As temperate glaciers move down the valley, friction melts the glacier’s base.
This layer of meltwater acts as a lubricant and allows the glacier to ‘float’ allowing basal sliding and the glacier can move faster.
(EP) Mass Movement
Can occur quickly with the sudden movement of large ice masses, usually due to basal slipping - ice sheet calving is a good example of mass movement.
(EL) Glacial cycle of erosion
Three stages: youthful, mature, aged.
Youthful = beginning of erosional landforms, shaping of hollow or corrie by ice.
Mature = Corries well formed and begin to meet, glacial valley takes on ribbon-shape, hanging valleys are visible, valley floor deepens and takes on shape of trough.
Aged = U-shaped valley clearly defined, development of outwash plain (features of drumlins, eskers, kettle holes, etc.).
Corrie/cwm/cirque
Corrie, cwm and cirques are all the same feature and are deep, pre-glacial hollows of accumulated snow and ice.
Found at the apex of a glacial valley, on the coldest aspect of the mountain, with the greatest accumulation of snow and ice.
As the accumulated ice begins to flow; basal/rotational sliding along with plucking and abrasion, hollows the mountain into a bowl-shape.
Debris is pushed to the edges of the corrie, which acts as a dam (corrie lip) to the accumulating snow.
As the ice thickens within the hollow, it flows over the corrie lip and downhill as a glacier.
Plucking, abrasion and freeze-thaw weathering, steepen the back wall of the corrie, into the familiar armchair shaped landform.
Examples include Helvellyn Corrie in the Lake District and Cwm Idwal in Eryri National Park (Snowdonia).
Arête
Arêtes are knife-edge, steep-sided ridges.
Formed when two corries cut back into the mountainside.
As each corrie glacier erode either side of the ridge, the edges become steeper and the ridge narrower.
This gives the arête it’s a jagged profile.
Examples include Crib Goch in Eryri National Park, and Striding Edge in Lake District England.
Pyramidal Peak
As the name suggests, this is a three-sided, pointed mountain peak.
Formed when three or more back-to-back corrie glaciers carve away at the top of a mountain.
This creates a sharply pointed mountain summit.
Examples include Yr Wyddfa (Snowdon) in Wales and Buachaille Etive Mòr, Glencoe, Scotland.
Corrie, tarn, or cirque lakes
Corrie, tarn or cirque lakes form when the ice within the corrie melts.
Because of the corrie lip at the bottom end, the meltwater is held in place and a circular body of water is formed.
Examples include Red Tarn, Helvellyn in the Lake District and Cadair Idris in Eryri National Park (Snowdonia).
Truncated Spurs
Truncated spurs are past interlocking spur edges of past river action that have been cut-off forming cliff-like edges on the valley side.
Found between hanging valleys and are an inverted ‘V’ shape.
Formed when past ridges/spurs are cut off by the lower valley glacier as it moves past.
An example is Nant Ffrancon Valley in Eryri National Park.
