Week 07 Glacial Erosion, Continental Glaciation, Mountain Glaciers PDF

Summary

These notes cover Physical Geography, focusing on glacial erosion, continental glaciation, and mountain glaciers. The document includes learning objectives, definitions of key terms, and an overview of related topics like the cryosphere, glacier formation, ice sheet comparison, and glacial flow.

Full Transcript

Physical Geography:
Glacial Erosion,
Continental Glaciation,
Mountain Glaciers
10/14/2024-10/16/2024
PROFESSOR PETE PULEO

1
Glacial Erosion
and Deposition

2
Learning Objectives
Explain how glaciers act as important agents of landscape formation
and discuss the different categories of glaciers

Give a brief overview of how past glaciation has influenced Earth’s
surface over large areas of the continents

Describe the formation of glacier ice and its movement through the
glacial system

Summarize how glaciers shape the landscape through erosion and
deposition

3
What is the Cryosphere?
The major component of the Earth system that consists of frozen water

4
 Glacier
Body of ice on land that is in motion

https://landsat.visibleearth.nasa.gov/view.php?id=144376

5
 Glaciers vs. Ice Sheets
Glaciers: Ice Sheets:
Present across the world, Present in only Greenland and
particularly in cold, mountainous Antarctica
regions
Massive (>50,000 km2)
Smaller body of moving ice

https://nsidc.org/learn/parts-cryosphere/ice-sheets/ice-sheet-quick-facts

6
Glacier Snow -> Firn
Formation
Firn – Granular,
compacted snow

7
Glacier Formation
Scientist measuring
depth and sampling
layers of snow

Why care about this?

8
Glacier Formation
Scientist measuring
depth and sampling
layers of snow

Why care about this?

Compaction and density
influences snow -> firn ->
ice transformation

9
Glacier Formation
Accumulation Zone – Area where ice volume is gained on a glacier

Ablation Zone – Area where ice volume is lost on a glacier

10
Glacier Mass Change
Accumulation > Ablation: Glacier increases in size

Accumulation < Ablation: Glacier decreases in size

11
 Glacier Equilibrium
Equilibrium Line – The altitude at which accumulation rate and ablation
rate are equal for a glacier

https://commons.wvc.edu/rdawes/g101ocl/basics/glaciers.html

12
Glacier Growth and Retreat
What influences where Accumulation Zone and Ablation Zone meet?

13
Glacier Growth and Retreat
What influences where Accumulation Zone and Ablation Zone meet?

Key factors are summer temperatures above freezing and amount of
snowfall

14
 Glacier Growth and Retreat

https://www.coolgeography.co.uk/A-
level/AQA/Year%2012/Cold%20environs/Systems/Glacial%20Systems.htm

15
Glacier Flow
Ice moves from high elevation to low elevation due to gravity

Ice moves from high pressure to low pressure

16
Glacier Movement
Creep – Internal deformation of ice

Sliding – Movement of entire
glacier over rocks below

17
Glacier Movement
Flow is fastest at upper central part
of the glacier

Flow is slowest at rock contact
points

18
Glacier Movement
Stress from glacier motion/deformation leads to cracks on the brittle ice
surface known as crevasses

19
 Glacier Movement
Surge – Glacier movement associated with rapid flow at a much higher
rate than average

https://agupubs.onlinelibrary.wiley.com/doi/full/10.1029/2023JF007306

20
 Temperature and Pressure

https://www.researchgate.net/figure/Variation-of-the-melting-temperature-of-
ice-with-pressure-Nordell-1990_fig12_44062059

21
https://www.coolgeography.co.uk/A-
level/AQA/Year%2012/Cold%20environs/Systems/Glacial%20Systems.htm

22
Glacial Erosion
Plucking – Fragments of bedrock are frozen into ice as it moves above

23
Glacial Erosion
Abrasion – Rock fragments trapped in basal ice scour the bedrock
surface
Striations – Scratches made by plucked rocks that indicate direction of
ice movement

24
Glacial Erosion Landform
Roche Moutonnée – Asymmetrical mound formed by abrasion on one
side and plucking on the other

25
 Glaciers of the Past
Glacial Periods – Times when Earth’s climate was cooler, and ice sheets
were much more expansive
~20,000 years ago

https://waglacialerratics.ess.washington.edu/science/

26
Deglaciation
Period of rapid retreat

27
 Interglacial Period
Relatively warm global climate with reduced global ice sheet volume

Currently interglacial conditions, ice sheets only on Greenland and
Antarctica

https://svs.gsfc.nasa.gov/5099/

28
 Activity 1 Description
Observe the figure and answer
the following questions:
1) What is the relationship
between temperature and CO2
concentrations during glacial-
interglacial cycles?
2) What is the difference in CO2
concentrations between
maximums in interglacial periods
and maximums in glacial periods?
3) What is the difference in
temperature between maximums
in interglacial periods and
maximums in glacial periods?

29
 Activity 1 Solution
1) What is the relationship
between temperature and
CO2 concentrations during
glacial-interglacial cycles?
Tightly coupled or positively
correlated.
CO2 is a greenhouse gas,
meaning it traps heat from
the Sun on Earth.

30
 Activity 1 Solution
2) What is the difference in
CO2 concentrations between
maximums in interglacial
periods and maximums in
glacial periods?
Minimums: 180-190 ppm,
Maximums: 270-300 ppm,
Difference = 90-120 ppm

31
 Activity 1 Solution
3) What is the difference in
temperature between
maximums in interglacial
periods and maximums in
glacial periods?

Max = 5 to 8°C, Min = -3 to -4
°C, difference = 8-12°C

32
Landforms and
Landscapes of
Continental
Glaciation

33
Learning Objectives
Compare and contrast the contemporary continental ice sheets

Identify typical landforms and landscapes produced by continental
glaciers and discuss the glacial processes that formed them

Briefly discuss the pluvial lakes that formed during glacial periods in the
western United States

34
Antarctic Ice Sheet
Subdivided into West and East

13 million km2 area (9% of global land)

60 m of global sea level rise

35
Antarctic Ice Sheet Flow
Different sections flow in
different directions

Why?

36
Antarctic Ice Sheet Flow
Different sections flow in
different directions

Why?

Ice sheet altitude,
pressure, and gravity

37
Greenland Ice Sheet
~1.6 million km2 area (1/8 Antarctic Ice Sheet)

~6-7 m global sea level rise if melted

38
Greenland Ice Sheet
Flow
Generally, from high to low elevation

39
 Greenland Ice
Sheet Flow
Fastest surface flow near edges

Dark blue indicates sections of
the Greenland Ice Sheet

https://www.researchgate.net/figure/a-Surface-velocity-map-of-the-Greenland-
ice-sheet-highlighting-the-NEGIS-and-its_fig1_340017057

40
 Continental Glacier Weight

https://www.gfz-potsdam.de/en/section/earth-system-modelling/topics/solid-
earth-dynamics/glazial-isostatic-adjustment-gia

41
Continental Glacier Flow
Ice Streams – Zones of fast
flowing ice near coasts

What is it called when a
glacier flows many times
faster than average?

42
Continental Glacier Flow
Ice Streams – Zones of fast
flowing ice near coasts

What is it called when a
glacier flows many times
faster than average?

Surge!

43
Antarctic Ice Streams
https://www.youtube.com/watch?v=KlDO0C8r_ws&t=25s

44
Ice Sheet Mass Change

45
 Sea Level After Ice Sheet Melt

https://www.nationalgeographic.com/magazine/article/rising-seas-ice-melt-
new-shoreline-maps

46
 Ice Shelves
Floating extensions of an ice sheet that remain attached

https://www.antarcticglaciers.org/glaciers-and-climate/changing-
antarctica/shrinking-ice-shelves/ice-shelves/

47
 Calving
Ice shelves breaking off into massive icebergs

https://www.antarcticglaciers.org/glaciers-and-climate/changing-
antarctica/shrinking-ice-shelves/ice-shelves/

48
Past Continental Ice Sheets
Caused by cooler climates
in the past due to changes
in Earth’s orbit and CO2
concentrations

49
Glacial Drift
Sediments deposited by glaciers

Broken into two main categories:
1) Till
2) Outwash

50
Till
Poorly sorted sediment with grain sizes from clay to boulders deposited
by glaciers

51
Outwash
Well sorted sediments deposited by glacial meltwater, characterized by
stratified layers

52
 Erratics
Boulders carried far from their source area by glaciers

Erratic in Central Park, NYC

https://paulhcleverley.com/2019/08/26/erratics-in-central-park-new-york/

53
Moraine
Ridge of glacial drift that marks the former outline of a glacier

54
 Types of Moraines

https://www.internetgeography.net/topics/which-landforms-result-from-moving-
or-melting-ice/

55
 Drumlin
Elliptical, steep-sided hill formed under ice

https://planetearth.utsc.utoronto.ca/news/Drumlins_2021_09_20.html

56
 Drumlin
Formed as ice flows over bedrock and deposits till

https://www.geo.mtu.edu/KeweenawGeoheritage/Glaciers/Drumlin.html

57
Drumlin
What does this feature look like on a
topographic map?

58
Drumlin
What does this feature look like on a
topographic map?

59
Esker
Long, steep-sided, sinuous ridge

60
 Esker
Formed by meltwater flowing through a basal tunnel and filling with
sediment

https://commons.wikimedia.org/wiki/File:Esker_Formation.png

61
Kame
A rounded hill of gravel and sand deposited by meltwater

62
 Kame
Form by water moving sediments that are deposited after melting

https://physgeog.blogspot.com/2012/12/fluvioglacial-landforms-formaton-
of.html

63
Kettle
A depression often filled with water (kettle lake) created by glaciers

64
65
Outwash Plain
An area at the front of a glacier filled with meltwater fed braided
streams and glacial sediments

66
Pluvial Lakes
Bodies of water that accumulated because of greater moisture
availability

Driven by temperature (colder -> less evaporation) and atmospheric
circulation changes from ice sheets

67
Pluvial Lakes
US SW had cooler and wetter
conditions in glacial times

Lake Bonneville was largest (1000
ft deep and size of Lake Michigan)

Have mostly disappeared due to
evaporation today (Great Salt Lake
is an exception)

68
Activity 2 Description
Work independently to draw and describe the formation of the
following features. Then, get with a partner to share your drawings and
discuss how they form.

1) Drumlin
2) Esker
3) Moraine
4) Kame
5) Kettle

69
Activity 2 Solution

70
Activity 2 Solution
1) Drumlin – Forms from partial erosion and compression under ice
2) Esker – Forms from meltwater below a glacier flowing through a
tunnel and depositing sediment
3) Moraine – Forms from glaciers moving and concentrating surface
materials near its edges
4) Kame – Forms from a vertical hole in a glacier allowing meltwater
flow and sediment to pile up
5) Kettle – Forms from an ice block leaving a depression after melting

71
Landforms and
Landscapes of
Mountain Glaciers

72
Learning Objectives
Summarize the current distribution of mountain glaciers

Describe the characteristic landforms produced by mountain glacier
erosion

Discuss the landforms produced by glacial deposition in mountain
landscapes

73
Global Distribution of
Mountain Glaciers

74
Global Distribution of
Mountain Glaciers
What makes these places ideal for glaciers?

75
Global Distribution of
Mountain Glaciers
What makes these places ideal for glaciers?

High latitude -> Cold

High elevation -> Cold

Low summer temperatures (limits ablation)

Some snowfall (increases accumulation)

76
Glacial Trough
A U-shaped valley carved by a glacier

Do not bend as much as river valleys

77
 Truncated Spurs
Ridges that descend towards a valley from a
higher elevation that were eroded by
glaciers

https://en.wikipedia.org/wiki/Truncated_spur

78
 Hanging Valleys
Glacial troughs that hang above another
lower elevation glacial trough

https://en.wikipedia.org/wiki/Truncated_spur

79
Cirques
Bowl-shaped, steep-sided depression in mountain from glacier

80
Horns
Mountain peak created by adjacent cirques

81
Arêtes
Sharp ridges separating cirques or glacial troughs

82
Rock Steps
Step-like profiles in glacial landscapes from glacial erosion on rocks with
different hardness and structure

83
 Tarns
Lakes inside of cirques

https://www.nps.gov/articles/tarns.htm

84
Fjords
Glacial troughs or valleys filled in
with seawater

85
 Rock Flour
Fine grained sediment carried downslope by glaciers that can be moved
by wind and water

https://simple.wikipedia.org/wiki/Rock_flour

86
 Types of Moraines

https://www.internetgeography.net/topics/which-landforms-result-from-moving-
or-melting-ice/

87
Before Mountain Glaciation

88
During Mountain Glaciation

89
After Mountain Glaciation

90
Activity 3 Description
Work independently to draw and describe the formation of the
following terms. Then, get with a partner to improve your drawings and
descriptions.

1) Cirques
2) Tarns
3) Horns
4) Arêtes

91
Activity 3 Solution

92
Activity 3 Solution
1) Cirques – Erosion from mountain glaciers creates bowl shape.
2) Tarns – Water fills in cirque.
3) Horns – Cirques lead to a single point on a mountain rising above the
landscape.
4) Arêtes – Cirques and glacial troughs lead to a sharp ridge.

93
 Multiple Choice Practice Qs
Take ~ 1 minute to independently think about and write down an answer to the
question on the board.

Then, turn to a partner and discuss your reasoning for choosing that answer.

Write a second answer after you have discussed your thoughts with a partner (its
okay to write the same answer twice or change your answer, just be sure to have two
answers per question).

Finally, we will discuss the correct answer as a class.

Be sure to have your name and date on top and hand in before you leave.

94
Question 1
Presently, continental glaciers or ice sheets exist in:
A) Antarctica and Greenland only
B) Antarctica, Greenland, and northern Canada
C) Antarctica, Greenland, northern Canada, and Russia
D) Antarctica only

95
Solution 1
Presently, continental glaciers or ice sheets exist in:
A) Antarctica and Greenland only
B) Antarctica, Greenland, and northern Canada
C) Antarctica, Greenland, northern Canada, and Russia
D) Antarctica only

96
 Question 2
Most of the erosive work of glaciers is accomplished by:
A) kettles
B) erratics
C) glacial sliding
D) glacial creep

97
 Solution 2
Most of the erosive work of glaciers is accomplished by:
A) kettles
B) erratics
C) glacial sliding
D) glacial creep

98
 Question 3
If you see glacial sediment from a glacier that has some large clasts and
is unsorted, it is likely:
A) outwash
B) till
C) glacial flour
D) associated with a drumlin

99
 Solution 3
If you see glacial sediment from a glacier that has some large clasts and
is unsorted, it is likely:
A) outwash
B) till
C) glacial flour
D) associated with a drumlin

100
Question 4
How do pluvial lakes relate to glaciation?
A) They formed during glacial periods when continental glaciers blocked
outlet rivers.
B) They formed during glacial periods when precipitation was more
abundant and evaporation rates were lower.
C) They were carved out by continental glaciers.
D) They were carved out by mountain glaciers.

101
Solution 4
How do pluvial lakes relate to glaciation?
A) They formed during glacial periods when continental glaciers blocked
outlet rivers.
B) They formed during glacial periods when precipitation was more
abundant and evaporation rates were lower.
C) They were carved out by continental glaciers.
D) They were carved out by mountain glaciers.

102
Question 5
A glacial trough that extends below sea level is a:
A) marginal lake
B) fjord
C) hanging valley
D) tarn

103
Solution 5
A glacial trough that extends below sea level is a:
A) marginal lake
B) fjord
C) hanging valley
D) tarn

104
Question 6
What is the typical shape of a valley that experienced substantial
glaciation in only its upper region?
A) U-shaped in both the upper region and the lower region
B) V-shaped in both the upper region and the lower region
C) U-shaped in the upper region and V-shaped in the lower region
D) V-shaped in the upper region and U-shaped in the lower region

105
Solution 6
What is the typical shape of a valley that experienced substantial
glaciation in only its upper region?
A) U-shaped in both the upper region and the lower region
B) V-shaped in both the upper region and the lower region
C) U-shaped in the upper region and V-shaped in the lower region
D) V-shaped in the upper region and U-shaped in the lower region

106