Glaciation EQ2

Question 1

How does entrainment enable erosion?

Answer 1

Entrainment helps move out the plucked stones from the ground and then abrasion (erosion) can occur

Question 2

What role does water have in the transportation of glacial material?

Answer 2

In temperate environments, water flows on top of glaciers leading to fluvial transport. Meltwater may flow through crevasses or holes in the ice transporting material into and down below the glacier. Meltwater also carries material beneath temperate glaciers.

Question 3

What is the difference between till and fluvio-glacial debris?

Answer 3

Till - Deposited directly by glacier ice
Fluvio-glacial debris - material deposited in layers by meltwater

Question 4

What are ice marginal environments?

Answer 4

Environments at the edge of glacial ice. Glacial and fluvio-glacial processes occur.

Question 5

What are proglacial environments?

Answer 5

Environments at the front of a glacier, dominated by fluvio-glacial processes

Question 6

What are periglacial environments?

Answer 6

Environments near glaciers. Dominated by freeze-thaw processes.

Question 7

What are active landscapes?

Answer 7

Landscapes which currently experience glaciation and glacial landform development

Question 8

What are relict landscapes?

Answer 8

Landscapes not currently characterised by glaciers but feature fossilised glacial landforms.

Question 9

What are the main stores in a glacial system?

Answer 9

Snow and ice

Question 10

How do the stores in a glacial system vary?

Answer 10

Summer causes melting and so smaller stores, winter snowfall causes the stores to grow. Global warming in the past 30 years has led to diminishing stores and diminishing glaciers.

Question 11

What are the three main inputs into the glacial system?

Answer 11

Direct precipitation in the form of snowfall which compacts into high density clear glacial ice over years
Avalanches from mountains above
Wind deposition of snow

Question 12

What is the equilibrium line in a glacier?

Answer 12

The line that marks the boundary between the accumulation zone and the ablation (output) zone. As the balance of inputs versus outputs shifts the equilibrium will move up or down the glacier.

Question 13

What is the role of energy in a glacial system?

Answer 13

A glacier’s mass combines with gravity to general potential energy. As the glacier moves potential energy is converted to kinetic energy. Kinetic energy enables the glacier to carry out erosion, transportation and deposition.

Question 14

What is the main output in a glacial system? What are some other minor outputs?

Answer 14

Water resulting from melting is the main output
Chunks of ice breaking off when glacial system extends over water to form icebergs (calving)
Evaporation of meltwater
Sublimation

Question 15

What are the 5 main transfers of energy and material?

Answer 15

Evaporation
Sublimation
Meltwater flow
Internal deformation
Basal slippage

Question 16

Where are the transfers and flows of energy and material most and least pronounced?

Answer 16

Most pronounced in more temperate environments (as greater seasonal variations in temp above and below 0°C)
Least pronounced in the world’s coldest environments (e.g. Antarctica)

Question 17

What do negative feedback loops do for glacial systems?

Answer 17

They regulate systems to establish balance and equilibrium

Question 18

What do positive feedback loops do in a glacial system?

Answer 18

They enhance and speed up processes promoting rapid change

Question 19

What is the fundamental cause of ice movement?

Answer 19

Gravity. Ice moves downslope from high to low altitude.

Question 20

What does the process and rate of glacier movement depend upon?

Answer 20

Temperature of the ice and whether the ice melting point is reached. Ice depth lowers the melting point and so most temperate glaciers reach the pressure melting point and so have meltwater lubricating the glacier allowing it to move quicker.

Question 21

How do temperate glaciers move? What is the split in causes of movement?

Answer 21

By both basal slip (75%) and internal deformation (25%)

Question 22

What is the general process of basal slippage?

Answer 22

Occurs when the base of the glacier is at the pressure melting point (pmp), which means that meltwater is present and acts as a lubricant, enabling the glacier to slide more rapidly over the bedrock.

Question 23

What is enhanced basal slip caused by?

Answer 23

Obstacles on the valley floor

Question 24

What do large obstacles (>1m) cause?

Answer 24

A process called regelation creep . Which is an increase in pressure which causes the ice to plastically deform around the feature and then refreeze on the down glacier side of the obstacle.

Question 25

What do smaller objects (<1m wide) do?

Answer 25

Help enhance basal slip by adding a little more pressure.

Question 26

What is extensional flow?

Answer 26

When ice moving quickly (due to gravitational force because of the steepness of valleys at the head of some glaciers) fractures into layers due to the tension caused by such movement, these layers then slip downwards (extensional flow).

Question 27

What are surges?

Answer 27

Short lived substantial glacial advances

Question 28

What are some causes of glacial surges?

Answer 28

Earthquakes
Volcanic/geothermal activity causing increased meltwater
Subglacial bed deformation (when glaciers move over weak rock and the sediment beneath deforms moving the glacier along with it)

Question 29

What percentage of polar (cold based) glacier movement is down to internal deformation?

Answer 29

100%

Question 30

What are the two movements that work together to cause movement via internal deformation?

Answer 30

Intra granular movement

Question 31

What is intra granular movement (internal deformation)?

Answer 31

Where individual ice crystals become deformed due to the intense stresses within the ice, due to the great mass of the glacier, and so gradually the mass of ice deforms and moves downhill in response to gravity.

Question 32

What is inter granular movement (internal deformation)?

Answer 32

Where individual ice crystals slide over each other causing the glacier to move.

Question 33

What is the fundamental cause of ice movement?

Answer 33

Gravity. Ice moves downslope from higher to lower altitudes as the weight of the snow and ice exerts and increasing downslope force.

Question 34

What does the process and rate of glacier movement depend on?

Answer 34

Glacier movement greatly depends on the temperature of the ice and whether the melting pressure point is reached. Increased ice depth fractionally changes the melting point to a new point, the pressure melting point. Most temperate glaciers reach the pressure melting point and so produce a great deal of meltwater which lubricates and increases the rate of movement (basal slip). Temperate (warm based) glaciers thus move quicker than cold based glaciers which are frozen to the ground and rely on internal deformation.

Question 35

What are the 7 major factors affecting ice movement?

Answer 35

Lithology
Altitude
Gradient (gravity)
Ice Temperature
Ice thickness (size and mass)
Mass balance
Feedback mechanisms

Question 36

Why is lithology important in controlling ice movement?

Answer 36

Temperate zone glaciers move quicker over impermeable surfaces is faster because meltwater is retained, instead of percolating, so the glacier can keep moving due to basal slippage
Easily eroded and ‘weak’ rocks are more prone to bed deformation and temperate zone glaciers move quicker over deformable sediment, because as the sediment deforms under the weight of the glacier it moves along the ice above

Question 37

Why is altitude important in controlling ice movement?

Answer 37

Higher altitudes mean more precipitation and lower temperatures, and so accumulation is greater, therefore there is more mass to the glacier which means faster movement.

Question 38

Why is gradient important controlling ice movement?

Answer 38

Gravity encourage ice movement, the steeper the gradient, the greater the pull of gravity is and thus the faster the ice movement.

Question 39

Why is ice temperature important in controlling ice movement?

Answer 39

In some environments (e.g. Antarctica) it is so cold that the ice is frozen to the bed and there is no basal slippage and only internal deformation can occur which means the glacier moves slowly compared to glaciers in more temperate environments which have meltwater due to the pressure, and crucially the higher temperatures.

Question 40

Why is ice thickness (ice size and mass) important controlling ice movement?

Answer 40

The heavier the ice the more force needed to overcome increased friction
When ice is at least 50m thick plastic flow begins, so greater thickness creates more pressure which often causes melting at the base
Size of ice mass can also affect the rapidity of its response to change

Question 41

Why is mass balance important controlling ice movement?

Answer 41

If there is a greater rate of ablation, then there is more meltwater, this causes faster movement as basal slippage increases

Question 42

Why are feedback mechanisms important controlling ice movement?

Answer 42

Positive: the increased movement caused by the existence of meltwater at the base can generate increased frictional heat therefore there is even more melting and an increase in the rate of basal slip

Negative: ice thickness may increase pressure melting and basal slip, but in turn the melting will reduce ice thickness and reduce melting and basal slip.

Question 43

What is erosion in glaciers?

Answer 43

The removal of weathered material by glacial ice, erosional processes include plucking, abrasion, crushing and basal melting

Question 44

What does abrasion do to the rock bed of a glacier?

Answer 44

Abrasion by individual stones leads to micro features like chatter marks and striations. Abrasion by rock flour polishes the underlying rocks (sand polishing).

Question 45

What is the erosional process of plucking in a glacier?

Answer 45

Plucking (or quarrying) occurs when meltwater freezes part of the underlying bedrock to the base of a glacier. Any loosened rock fragments are then plucked away as the glacier subsequently moves forward. Plucking’s importance as a process of eroisoon is very dependent on rock type and the incidence of pre-existing joints.

Question 46

What is entrainment (in reference to glaciers)?

Answer 46

When small fragments are trapped/entrained in the glacier by basal ice freezing around them and applying sufficient drag to pull them along. And so, abrasion only happens because of entrainment, the dragging of small rock fragments.

Question 47

What is the link between entrainment and erosion?

Answer 47

Plucked stones became entrained in the basal layer of the glacier and as the glacier moves abrasion occurs. Entrainment is fundamental in erosion.

Question 48

What is SUPRAGLACIAL debris?

Answer 48

Material falling from hillsides being washed or blown on to the glacier from the surrounding land (also includes atmospheric fallout like volcanic ash).

Question 49

What is SUBGLACIAL debris?

Answer 49

Material eroded from the glacier bed and valley walls (or material frozen to base from subglacial streams)

Question 50

What is ENGLACIAL debris?

Answer 50

Material that has worked its way through the glacier or ice sheet