Tectonics theory

Question 1

Global distribution of earthquakes

Answer 1

95% along plate boundaries
90% pacific ring of fire
Follow the oceanic fracture zone and the continental fracture zone

Question 2

Global distribution of volcanoes

Answer 2

50 erupt each year

80% of active volcanoes are on destructive plate boundaries

Question 3

Global tsunami distribution

Answer 3

Earthquake generated
90% occur within the Pacific Basin
most generated at subduction zones
Japan-Taiwan Island arc

Question 4

Divergent plate boundaries

Answer 4

Commonly found at mid ocean ridges where sea-floor spreading occur
Rift valleys on the continent
New oceanic pate is formed
Low risk shallow focus submarine earthquakes
Low risk shield or rift volcanoes
Drift

Question 5

Convergent plate boundaries

Answer 5

Potential to create huge mountain ranges or large subduction zones with areas of great friction and ocean trenches
Infrequent high magnitude earthquakes (Japan 2011)
composite volcanoes
Lithosphere is destroyed
connect

Question 6

Conservative plate boundaries

Answer 6

Relative horizontal movement
Lithosphere is neither created or destroyed
No volcanic activity
Occasionally high magnitude shallow focus earthquakes
San Andreas Fault

Question 7

Formation of an intra-plate volcano

Answer 7

Mantle plume- high level of heat in the mantle
Magma rises from the asthenosphere to the lithosphere due to density changes.
Plate movement causes the shape to shift into a bulbous head at the top of the conduit.
Magma escapes onto the seafloor by exploiting a weakness or burning through the crust.
Repeats.
Magma cools and hardens forming an active volcano.
Plate movement shifts away from hot spot, unactive chain of islands.

Question 8

Formation of an earthquake

Answer 8

Caused by sudden movements near the Earths surface along a fault
Plate movement causes a build up of strain and energy.
Pressure exceeds the strength of the fault and he crust fractures.
Sudden release of energy sends seismic waves radiating outwards causing the surface to shake.

Question 9

Formation of a tsunami.

Answer 9

Seismic energy released during an earthquake causes the seafloor to uplift displacing the above water column.
Gravity drags the water column back down, splits into waves travelling in all directions.
In shallow water friction causes the water to slow down increasing wave height and decreasing wave length.
Vacuum effect draws water out to sea.
Travels up to 600kph for 1 mile inland.

Question 10

Mantle convection

Answer 10

Heat from the radioactive decay in the core causes density changes in the mantle, magma circulates in cells.

Question 11

Seafloor spreading

Answer 11

Hot magma rising from the asthenosphere pushes tectonic plates apart at mid ocean ridges, mainly occurs at divergent plate boundaries.
Credited with gap filling

Question 12

Subduction zone movement

Answer 12

Weight of sinking oceanic plate pulls it into the subduction zone at convergent plate boundaries, may also pull continental plate downwards.

Question 13

Slab pull

Answer 13

Newly formed oceanic crust at becomes denser and thicker as it cools pulling the plate down into the mantle.

Question 14

The Benioff zone

Answer 14

An area of seismic activity corresponding with the slab being pulled downwards into the subduction zone.
Cross section of land identifies volcano location and determines the position of the earthquakes hypocentre.
Important at explaining magnitude.

Question 15

Primary hazards of earthquakes

Answer 15

Seismic waves = higher frequency/amplitude = more dangerous
P waves = vibrations caused by compression, fastest, solids and liquids 8kph least damaging
S waves= perpendicular vibrations, move slowly through solids
l waves= horizontal plane, most damaging focus all energy on ground surface

Question 16

Secondary hazards of earthquakes

Answer 16

Liquefaction- surface rock become more liquid than solid, causes buildings to collapse and infrastructure to collapse, Japan tilts up to 60 degrees
Landslides/Avalanches - sloped weaken and fall growing in size, Mg 4 required
Aftershocks- readjusting of fault line, New Zealand 2011 aftershock higher magnitude than 2010
Tsunamis - Japan 2011

Question 17

Tsunami threat

Answer 17

Generally low in height with long wavelength when in deap waters
Shallow water increases wave height and decreases wave length.
Speeds up to 600Kph
Sever cause of coastal flooding
Series of waves generated by seismic energy

Question 18

Primary hazard of volcanoes

Answer 18

Pyroclastic flow
Lava flows
Tephra
Gas eruptions

Question 19

What are pyroclastic flows?

Answer 19

Fast moving destructive mix of rock, ash and gases reaching up to 1000 degrees.
Cause most volcanic related deaths.

Question 20

What are lava flows?

Answer 20

fast flowing lava on the surface up to 15m/s and 1000 degrees

Question 21

What is tephra?

Answer 21

Volcanic ash fragments and rock ejected from the volcano.

reduce visibility and damage infrastructure travelling thousands of kilometers

Question 22

What are gas eruptions?

Answer 22

Dissolved gases travel huge distances when erupted from the volcano, CO2 methane etc.

Question 23

What are lahars?

Answer 23

Secondary hazard of a volcano

Flows of rock, mud and water when heavy rainfall re-mobilises old tephra, speed varies depending on land gradient.

Question 24

What are Jokulhlaups?

Answer 24

Secondary hazard of a volcano
Type of catastrophic glacial outburst, floods occur suddenly and in large volume when ice dams fail due to heat of the volcano.
Modify landforms, through erosion and deposition.

Question 25

Alfred Wegner theory

Answer 25

1912- modern day continents had moved from a previous super continent called Pangaea 225 million years ago.
Could not explain how plates moved.

Question 26

Alfred Wegner evidence

Answer 26

Dovetailing of continents
Biology - fossils in Brazil and south Africa
Geology- rock formation Brazil and South Africa
climatology- coal found under Antarctic ice cap.

Question 27

Plate tectonic theory after Alfred Wegner

Answer 27

Ewing - noticed continuous mountain ridge, rocks were volcanic and recent in origin so must be continuously forming
Hess- studied age of rocks discovered newest rocks were towards the centre of the deap ocean trench and more historic rocks were towards America and the Caribbean
Sea floor spreading by 5cm per year

Question 28

Paleomagnetism

Answer 28

Evidence for sea-floor spreading
Magma rises onto earths crust from the asthenosphere
Minerals in lava align themselves with Earth’s magnetic field which changes polarity every 200 years.
Symmetrical alignment down mid ocean ridge.

Question 29

Natural hazard

Answer 29

A naturally occurring event with the potential to cause damage to human life or property.

Question 30

Natural disaster

Answer 30

A naturally occurring event that causes widespread economic, environmental or social damage. Causes serious disruption to a community often exceeding capacity to cope.
100 effected
10 dead

Question 31

Vulnerability

Resilience

Answer 31

The ability to anticipate, cope with, resist and recover from a natural hazard.
The ability of a community exposed to a hazard to resist and recover from the effects. Their capacity to cope.

Question 32

Deggs model

Answer 32

Venn diagram idea

Overlap between a hazardous geophysical event and a vulnerable population causes a disaster

Question 33

Risk equation

Answer 33

risk = hazard x vulnerability
———————————
capacity to cope

Question 34

What is the Richter scale?

Answer 34

Measures the magnitude and intensity of earthquakes
Developed in 1935
Measures the amplitude of seismic waves
Absolute scale

Question 35

Richter scale evaluation

Answer 35

+ve global, well understood,
+ve measures amplitude which causes shaking and the majority of damage.
-ve does not consider vertical movement, less accurate with high magnitude.

Question 36

What is the Mercalli scale?

Answer 36

Earthquakes
Measured the experienced impact of earthquakes based on a series of key responses from movement of furniture to structural collapse.
0-12

Question 37

Mercalli scale evaluation

Answer 37

+ve shows real damage considering development

-ve subjective not scientific, varies by person and location for each event.

Question 38

What is the Moment Magnitude scale?

Answer 38

Earthquakes
Based on amount of energy released
‘Seismic moment’ considers slip on fault, size of area affected and earth rigidity.

Question 39

Moment Magnitude evaluation

Answer 39

+ve logarithmic, no upper limit
+ve accurate at high magnitudes
-ve struggles to measure low intensity

Question 40

Volcanic Explosivity index

Answer 40

Calculated from the height and volume of ejected material and qualitative observations.

Question 41

VEI evaluation

Answer 41

-ve does not consider radius of damage, rating can be skewed by effusive long distance eruptions
+ve compare historical events.

Question 42

Understanding the risk

Answer 42

Unpredictable - can’t predict magnitude or timing
Lack of alternatives
Dynamic hazards - risk always changing
cost benefit of hazardous zone
Russian roulette- belief of fatalism, cant change risk.

Question 43

Disaster Age risk Index

Answer 43

Identifies risk of ageing population
Physical decline, higher poverty levels, lack of adequate service provision/education before and after the event.
Children and elderly are the most vulnerable.

66% of worlds ageing population live in less developed regions.

Question 44

PAR model

Theory and Purpose

Answer 44

Pressure is created by a progressively vulnerable population combined with the potential of a natural hazard.
Governments should use the model to identify and reduce pressure and vulnerability.
Root causes create vulnerability causing dynamic pressure and physical/social unsafe conditions.

Question 45

What are hazard profiles?

Why do we use them?

Answer 45

A diagram used to understand the physical characteristics of a hazard based on a set of criteria.
Used to help prioritise government spending and assess hazards in contrasting countries.
Difficult to compare different hazard types.

Question 46

Types of inequality that effect vulnerability

Answer 46

Asset inequality - housing, savings etc
Entitlements- public services, law and judging
political - democracy and human rights
social status- ability to access services

Question 47

Types of governance

Answer 47

Economic - relationship with other economies, GDP, poverty, quality of life
Political - decision making, policies and planning
Administrative- enforcing policy at a local level, e.g building quality, land use.

Question 48

Components of development

Answer 48

economic - wealth/ quality of life
social - health education
environmental - resource usage and distribution, consider future
political - human rights and democracy

Question 49

Cross cutting factors

Answer 49

Pre-existing problems not tectonically related that increase vulnerability
Can be internal (conflict) or external (drought)

Question 50

Risk poverty nexus model

Answer 50

Recognises that low income groups suffer a disproportionate share of disaster losses
Poverty increases vulnerability
Spiral of decreasing resilience after event.

Question 51

Swiss Cheese model

Answer 51

Widely used in risk management

Suggests disasters occur as a result of aligned weaknesses in safety nets.

Question 52

Global disaster trends

Answer 52

Increased number of recorder events
Lower number of deaths
Increasing economic losses and number of people effected.
Increase in atmospheric and biological disasters due to climate change.

Question 53

Problems with disaster data

Answer 53

No universal definition of a disaster.
Remote locations are frequently under recorded - 10% data missing from CRED
Subject to political bias - 2004 TS Thai government played down impact to protect tourism
Statistics hard to collect in remote areas- population of shanty towns unknown

Question 54

What is a mega disaster?

Answer 54

Large scale disaster on aerial scale or terms of Economic/human impact.
Causes problems for effective management
Needs international support
Affect more than one country.

Question 55

What is a hazard hotspot?

Answer 55

An area at risk from two or more hazard groups.
Often overlap with vulnerable populations.
Defences decreased due to poverty reduction priority.

Question 56

The risk disk

Answer 56

Helps to better understand disaster management.
Suggests disaster preparedness has a purpose in death reduction.
Includes: preparedness, response, recovery, mitigation, development and adaptation to climate change.

Question 57

Earthquake forcasting

Answer 57

Gives a statistical likelihood of an earthquake occurring at a particular location.
Based on evidence from global seismic monitoring and historic data showing a pattern.
Encourages better prepartion.

Question 58

Earthquake prediction

Answer 58

Not possible

No diagnostic precursor

Question 59

Park model

Answer 59

Shows the deterioration of quality of life after a natural disaster.
stages = relief (search and rescue)
rehabilitation (temporary housing and services)
reconstruction (permanent rebuilding)
improvement if any

Question 60

Managing events methods

Answer 60

modify the……
EVENT - decrease effects of magnitude
CAUSE - impossible, prevent secondary hazards
VULNERABILITY - make a more resilient population
LOSS- prevent overall loss and cost.

Question 61

Hazard management cycle

Answer 61

PRE_DISASTER = risk assessment, mitigation etc
EVENT
RESPONSE = evacuation, search and rescue
POST-DISASTER = reconstruction, development projects

Question 62

example of things in PAR model

Answer 62

ROOT CAUSES-limited power, resources, political and economic systems, poverty
DYNAMIC PRESSURE - lack of training/investment, population change/urbanisation
UNSAFE CONDITIONS - local economies at risk, physical environment.