Lecture 5

Question 1

What is a landslide?

Answer 1

• downslope movement of rock or sediment as a result of gravity
• movement is classified as rapid if it can be detected by eye

Question 2

What variables are used to classify landslides?

Answer 2

• mechanism of movement
• type of material
• amount of water present
• speed of movement

Question 3

What are 3 basic mechanisms of movement?

Answer 3

1. Fall: rock or sediment dropping off the face of a cliff
2. Slide: downslope movement along a discrete failure plane
3. Flow: movement of particles semi-independently of one another, commonly with the aid of water

Question 4

What is rock fall?

Answer 4

• mass movement caused by fall mechanism
• involves rock rolling down a steep slope of falling through the air

Question 5

What is slump?

Answer 5

-in this mass movement the failure plane is curved upward

Question 6

What is creep?

Answer 6

• mass movement caused by flow mechanism
• speed of movement ranges from a few mm to a metre annually

Question 7

What are forces on slopes?

Answer 7

-the stability of a slope is based on the balance between two types of forces:

Driving forces: these move material downslope; they are based on the weight of the material from vegetation, water, etc.

Resisting forces (friction): these oppose downslope movement; they are based on the shear strength of the material

Question 8

What is the factor of safety?

Answer 8

-ratio of resisting forces to driving forces

FS=RF/DF

• ratio>1, the slope is stable
• ratio<1, the slope is unstable
• if the factor equals 1 resisting and driving forces are equal
• the forces are determined by relationships among material type, slope and topography, climate, vegetation, and water

Question 9

How does the material type affect the risk of landslides?

Answer 9

• the degree of consolidation and the presence of weakness planes can increase the risk of landslides
• slumps are most common in unconsolidated sediment
• slumps are rotational mass movements as opposed to translational mass movements
• translational movements often occur where sediment overlays bedrock; the failure plane is generally at the boundary between the soil and the bedrock

Question 10

How is slope related to driving forces?

Answer 10

• steeper slope=greater driving forces
• steepest slopes are associated with rock falls
• moderate slopes are associated with flows
• gentle slopes are associated with creep
• topographic relief: the height of a hill or mountain above the land around it
• dangerous landslides are more likely in areas of high relief

Question 11

How does climate influence landslides?

Answer 11

• climate influences amount of water that infiltrates and erodes the soil
• in dry climates, vegetation is sparse, soil is thin, and bare rock is exposed in many areas
• rock falls are more likely in those areas
• in humid climates, soil is thick and rock is generally covered with soil and vegetation
• thus, flows and creep are more likely in those areas

Question 12

What role does water play in landslides?

Answer 12

• water saturates soil increasing the likelihood of flows
• following prolonged periods of deep water infiltration slumps can develop
• water can also erode the base of a slope therefore decreasing its resisting force

Question 13

What regions are at risk for landslides?

Answer 13

-any location with significant variation in topography

Question 14

What is the Frank Slide?

Answer 14

• Canada’s best known landslide
• occurred in 1903 on Turtle Mountain near Frank, Alberta
• landslide killed 76 people, dammed the Crowsnest River creating a lake, and buried 5km of railway
• the exact cause of the landslide is unknown but glaciation mining and heavy snow are likely contributors

Question 15

What are natural service functions of landslides?

Answer 15

• landslides can result in the development of new habitats in forests and aquatic ecosystems
• this produces an increase of biodiversity
• landslides can carry sediments that contain valuable minerals which become concentrated at the base of a slope following an event

Question 16

How can landslide hazard be minimized?

Answer 16

• recognize where they are most likely to occur
• features indicative of unstable slopes include: cracks on hillside, recessed crest of a valley wall, large boulders or talus at a cliff base, tilted trees, exposed bedrock, an irregular land surface at a slope base
• aerial photos are used to detect some of these features and then hazard maps can be produced

Question 17

How can landslides be prevented?

Answer 17

• complete prevention is impossible but certain engineering practices can minimize the hazard:
  1. Drainage control: objective is to remove excess water from the soil by pipes and drains
  2. Levelling the slope: material from the upper slope can be moved to the slope base with modern technology
  3. Slope supports: examples include retaining walls, rock bolts, and metal screens

Question 18

What are landslide warning systems?

Answer 18

• tiltmetres: instruments used to detect movement along a slope
• measures very small changes from the horizontal level
• some rock fences along railways in NA are linked to signal systems
• rain gauges on slopes can identify when a precipitation threshold has been reached

Question 19

What is a snow avalanche?

Answer 19

• a mass of snow many cubic metres in volume that separates from a snowpack and flows downslope
• rocks, soil, ice, and debris can travel in a similar motion; however the term avalanche is generally reserved for snow
• the intensity of the hazard is dependent on slope steepness, snowpack stability, and weather

Question 20

What are the types of avalanche?

Answer 20

• avalanche travelling as a coherent block
• avalance that becomes wider as it travels downslope
• estimated that over 99% of avalanches are not seen by anyone
• it is likely that over 1 million avalanches large enough to kill a person occur annually in Western Canada alone

Question 21

What does snowfall depend on?

Answer 21

• snowfall accumulation depends on latitude, altitude, and proximity to bodies of water
• temperature decreases with altitude therefore high mountains have permanent snow cover
• snow accumulates on mountain slopes that are at angles of less than 60 degrees
• if the angle is too steep nothing can accumulate

Question 22

What is a point-release avalanche?

Answer 22

• these begin as an initial failure after a heavy snowfall
• the sliding snow then causes more failures in the adjacent snowpack causing the trough to widen

Question 23

What is a slab avalanche?

Answer 23

• these occur when a snowpack fractures along a weak layer parallel to the surface
• these avalanches move as cohesive blocks leaving behind a scarp
• more dangerous than point release
• they are the most dangerous

Question 24

What is slough?

Answer 24

-sliding loose snow

Question 25

What is a slab?

Answer 25

-large sections of snow path crack off

Question 26

What is the danger zone for avalanches?

Answer 26

• slopes between 30 and 45 degrees
• as snow falls it builds up layer upon layer which bond
• if the bond is weak new snow falls on unstable foundation
• slope angle is most important terrain factor for avalanche formation
• most occur between 25 and 60 degrees
• below 25, snow does not easily slide

Question 27

Describe avalanche motion

Answer 27

• rapidly moving avalanches (speeds over 35 km/h) often generate clouds of powdered snow
• fastest avalanches have been measured at speeds of 200km/h
• some avalanches are powerful enough to climb opposing slopes (in a valley)

Question 28

What triggers avalanches?

Answer 28

• most avalanches occur soon after snowstorms
• some may occur when daytime heating from the Sun warms the upper part of the snowpack
• avalanches that cause injuries or fatalities are often triggered by people
• some avalanches are triggered intentionally with explosives

Question 29

Describe the avalanche path

Answer 29

Start Zone: the area where the snowpack first fails

Track: the area along which the avalanche accelerates and reaches max velocity

Run-out zone: the area of deceleration and snow deposition

Question 30

How does orientation of slope affect avalanche?

Answer 30

• deposits of snow on leeward slopes can consist of interlayered strong and weak layers
• slopes facing the Sun are more prone to daytime avalanches during clear weather
• other factors include smoothness of slope, amount of vegetation, and topography of the slope itself

Question 31

What regions are at risk for avalanches?

Answer 31

• snowpack of at least 50cm is required for avalanche
• in NA deep snowpacks are most common in rocky mountains

Question 32

What are the effects of avalanches?

Answer 32

• most avalanche deaths occurred in late 1800s and early 1900s in canadian history
• in total over 600 people have died from avalanches in Canada
• avalanches cause millions of dollars in economic losses in BC each year due to closed highways
• damage to forests is evident each year but property damage is relatively minor

Question 33

Describe the Chilkoot avalanche

Answer 33

• this disaster occurred in 1898 and remains one of the worst avalanches in NA history
• an avalanche spread over the Chilkoot Trail causing 60 deaths
• the trail was heavily used at that time by people heading to Yukon during the Klondike Gold Rush
• the Chilkoot trail extends from Alaska to BC and is the easiest route through the mountains

Question 34

What are natural service functions of avalanches?

Answer 34

• ecological disturbance
• increase local plant and animal diversity
• maintain open areas in otherwise forested regions
• more diverse than having an entire forest for animals to graze on the mountain side
• can serve as an important habitat zone for certain plants and animals

Question 35

Describe human interaction with avalanches

Answer 35

• humans encroach on areas prone to avalanches
• as tourism and recreation have increased in the rockies and alps, deaths from avalanches have increased

Question 36

How can avalanche risk be minimized?

Answer 36

• buildings in hazardous areas within a specific recurrence interval may require special engineering
• this may include reinforced walls or deflection structures
• in avalanche start zones fences or nets can be installed to support the snowpack
• splitting wedges on the sides of buildings can force an avalanche around the structure
• avalanche sheds allow avalanches to travel over roads or railways without disruption to traffic
• controlled triggers are used to force avalanches to occur in order to prevent buildup of the snowpack (explosives)

Question 37

What is a splitting wedge?

Answer 37

• splits the snow around building to protect it (concrete triangular walls)
• mounds and berms can be used to slow and deflect avalanches away from populated areas

Question 38

What are the 3 major strenght and stability tests used to assess snowpack?

Answer 38

1. Compression Test: a vertical force is placed on the top of the snowpack to detect weak layers
2. Shovel test: it assesses the strength by isolating a column of snow and applying force on the uphill side
3. Rutschblock test: a skier pushes and jumps on a column of snow to detect cohesion of the snowpack

Question 39

What are the survival rates for avalanche rescue?

Answer 39

• motion of snow itself kills about 25% of victims
• survival depends on the length of time the person is buried and the burial depth
• over 90% survive if rescued within 15 minutes, 30% within 35 minutes, and 0% within 2 hours
• buried victims die of a combination of suffocation and hypothermia
• less than 10% of victims survive burial in more than 1.5m of snow
• best chance of survival depends on effective search by other members of the group rather than waiting for help
• chances of finding buried victime increase when everyone in group carries standard avalanche survival aids

Question 40

What are avalanche survival aids?

Answer 40

• avalanche cord: a 10m rope that drags behind a person while skiing snowboarding or snowshoeing
• avalanche transceiver: a portable device that emits a radio signal to assist in finding the location of a victim
• avalanche dogs: they can detect human scent rising through the snow and can quickly cover large areas

Question 41

Which structure allows avalanches to travel over a road or railway?

Answer 41

avalanche shed