*Challenge of Natural Hazards (Paper 1) Flashcards

Question 1

Q

What is a ‘natural hazard’?

Answer

A

A natural event (for example earthquake, volcanic eruption, tropical storm, flood) that threatens people or has the potential to cause damage, destruction and death.

Question 2

Q

What is hazard risk?

Answer

A

Hazard risk is the chance or probability of being affected by a natural event

Question 3

Q

List some examples of natural hazards (and their category if you can)

Answer

A

_Tectonic hazards_ (e.g. earthquake, tsunami, volcanic eruption)
_Atmospheric hazards_ (e.g. hurricanes)
_Geomorphological hazards_ (e.g flooding)
_Biological hazards_ (e.g. forest fires)

Question 4

Q

What factors affect hazard risk?

Answer

A

Poverty - poorer places will struggle to adequately prepare for a hazard or be able to respond.
Magnitude - the severity of the hazard will make the impacts worse
Population density - areas that have high populations will experience more destruction.
Education - how educated the population are to react and prepare for the hazard

Question 5

Q

Describe the structure of the earth starting from the outermost layer?

Answer

A

OUTERMOST: 1. Crust - the outermost layer of the Earth, broken into tectonic plates.
2. Mantle - semi-molten part of the Earth.
3. Outer core - liquid iron and nickel

CENTRE: 4. Inner core - solid iron and nickel

Question 6

Q

What causes the plates to move?

Answer

A

Convection currents in the mantle

Question 7

Q

What are convection currents?

Answer

A

Circulating movements of magma in the mantle caused by the heat of the core

Question 8

Q

Describe the global distribution of earthquakes?

Answer

A

Earthquakes occur in lines which coincide with plate margins. There are many along the western coast of North and South America.

Question 9

Q

Describe the global distribution of volcanic eruptions.

Answer

A

Volcanoes are found both on land and in the sea. They tend to be found along plate margins. Some volcanoes are found in the centre of plates. These are known as hot spots. There is a large band of volcanoes around the Pacific Ocean known as the Ring of Fire.

Question 10

Q

What is oceanic crust?

Answer

A

The part of the Earth’s crust which is below the oceans.

Question 11

Q

What is continental crust?

Answer

A

The part of the Earth’s crust that makes the continents

Question 12

Q

What is the difference between oceanic and continental crust?

Answer

A

Oceanic crust is thinner (5-10km thick) and more dense than continental crust.
Oceanic crust is recycled at destructive margins as it subducts under the continental crust.
Continental crust is thicker (20-200km thick) and is less dense than oceanic crust.
Continental crust cannot be destroyed.

Question 13

Q

What is a conservative plate margin?

Answer

A

A plate margin where the tectonic plates are sliding past each other

Question 14

Q

What is a constructive plate margin?

Answer

A

A plate margin where the tectonic plates are moving apart

Question 15

Q

What is a destructive plate margin?

Answer

A

A plate margin where an oceanic and a continental plate collide.

Question 16

Q

What are tectonic hazards?

Answer

A

Threats posed by earthquakes, volcanoes etc

Question 17

Q

What is subduction?

Answer

A

The transformation into magma of a denser tectonic plate as it dives under a less dense plate

Question 18

Q

Define ‘epicentre’?

Answer

A

The point on the ground directly above the focus (centre) of the earthquake

Question 19

Q

Define ‘focus’?

Answer

A

The point of origin of an earthquake

Question 20

Q

Define ‘magnitude’?

Answer

A

The size of an earthquake

Question 21

Q

What is an ocean trench?

Answer

A

A deep depression on the ocean floor formed at the subduction zones of destructive plate margins

Question 22

Q

What are tectonic plates?

Answer

A

The large pieces of broken crust that cover the earth

Question 23

Q

What is a plate margin?

Answer

A

The boundary between two tectonic plates

Question 24

Q

What are primary effects?

Answer

A

The impacts of a natural disaster that happen immediately or soon after the event

Question 25

Q

Define response?

Answer

A

The way in which people react to a situation eg. an earthquake

Question 26

Q

What are secondary effects?

Answer

A

The after effects of a disaster eg. disease spreads or economic losses

Question 27

Q

Define ‘tsunami’?

Answer

A

Huge waves caused by earthquakes under the sea

Question 28

Q

List two characteristics of an oceanic crust

Answer

A

5-10 km thick
Dense
Destroyed at destructive plate margins
Forms constantly at constructive plate margins
Geologically young compared to continental crust

Question 29

Q

List two characteristics of a continental crust

Answer

A

20-200km thick
Less dense (than oceanic)
Cannot be destroyed. New crust is not formed
It is geologically old 3-4 billion years old

Question 30

Q

What is an earthquake?

Answer

A

Earthquakes are vibrations in the Earth’s crust that create shaking at the surface. They are highly unpredictable and often occur suddenly without warning, mainly on the plate margins

Question 31

Q

Do earthquakes happen on all four plate boundaries?

Question 32

Q

Why do earthquakes happen?

Answer

A

Earthquakes occur because stresses build up between the plates as one plate passes another.
As the plates move past one another they don’t do so smoothly, rather, they snag and grind, allowing energy to build up.
When the plates eventually move again this energy is released as shock or seismic waves through the Earth’s crust.
The point at which the earthquake is occurring is called the focus.
The point above this on the surface of the earth is called the epicentre.

Question 33

Q

List two characteristics of a composite volcano?

Answer

A

Made up of alternating layers of lava and ash (other volcanoes just consist of lava)
Found at destructive boundaries
Often has pyroclastic flows. A pyroclastic flow is a mixture of hot steam, ash, rock and dust
A pyroclastic flow can roll down the sides of a volcano at very high speeds and with temperatures of over 400°C

Question 34

Q

List two characteristics of a shield volcano?

Answer

A

Shield volcanoes are usually found at constructive or tensional boundaries
They are low, with gently sloping sides
They are formed by eruptions of thin, runny lava
Eruptions tend to be frequent but relatively gentle

Question 35

Q

Can we predict volcanic eruptions and earthquakes?

Answer

A

Volcanoes - Yes
Earthquakes - No

Question 36

Q

List some reasons why people live in areas at risk from tectonic hazards?

Answer

A

Fertile farmland on volcanic soil (environmental)
Income from tourism (economic)
Lack of other alternatives (social)
Mining precious minerals (socio-economic)

Question 37

Q

How do we measure the size of the earthquake?

Answer

A

Richter Scale - Measured from 1-9

Question 38

Q

At which plate margin can earthquakes occur?

Answer

A

All plate margins (constructuve, destructive and conservative)

Question 39

Q

At which plate margin can volcanoes occur?

Answer

A

Shield volcanoes form at constructive margins

Composite volcanoes form at destructive margins

Question 40

Q

Describe the primary effects of the Nepal earthquake

Answer

A

9,000 deaths
20,000 people injured
3 million without a home
US$5 billion of damage
50% shops destroyed
Airport became congested as aid arrived
Schools and buildings destroyed
1.4 million people needed food and water days after the quake

Question 41

Q

Describe the secondary effects of the Nepal earthquake

Answer

A

Ground shaking triggered landslides and avalanches, blocking roads, making relief difficult
Avalanches killed 19 people
A landslide blocked the Kali Gandaki River - causing risk of flood.

Question 42

Q

Describe the primary effects of the L’Aquila earthquake

Answer

A

300 people were killed
1,500 were injured
Hospitals damaged
67,000 homeless
10,000 buildings collapsed (including medieval buildings and monuments, univeristies and hospitals)

Question 43

Q

Describe the secondary effects of the L’Aquila earthquake

Answer

A

Aftershocks triggered landslides
L’Aquila University student numbers reduced
House prices increased
Some areas were so unsafe they were declared as ‘red zones’ which has led to a decrease in business and tourism

Question 44

Q

Describe the immediate responses to the L’Aqulia earthquake

Answer

A

Hotels (and some train carriages) provided shelter for 10,000 people.
Italian Red Cross searched for survivors.
The British Red Cross raised £170,000 in aid.
A state of emergency was declared which which sped up international aid efforts.
The EU donated US$550 million to help with rebuilding costs

Question 45

Q

Describe the immediate responses to the Nepal earthquake

Answer

A

Other countries helped in search and rescue and provided medical supplies.
Helicopters rescued people caught in the avalanche on Mount Everest.
Half a million tents needed to provide shelter for the homeless
Field hospitals were set up to alleviate pressure on hospitals.
300,000 people migrated from Kathmandu
Social media helped to map damage of area

Question 46

Q

Describe the long term responses to the Nepal earthquake?

Answer

A

Roads repaired and landslides cleared.
Lakes, formed by landslides damming rivers, were emptied to avoid flooding.
Homeless were re-housed.
School to be re-built or repaired.
Reopening of some heritage sites to boost tourism.
Everest Base camp repaired

Question 47

Q

Describe the long term responses to the L’Aquila earthquake?

Answer

A

Residents did not have to pay tax during 2010.
University students were given free public transport, discounts on educational equipment and were exempt from university fees for 3 years.
Years of rebuilding homes
Approx 15 years to rebuild historic centres.

Question 48

Q

Describe what is meant by ‘monitoring’ tectonic hazards?

Answer

A

Using scientific equipment to detect warning signs of events such as a volcanic eruption

Question 49

Q

What is meant by ‘prediction’?

Answer

A

Using evidence and monitoring information to make a judgement about when an earthquake or volcano is likely to happen.

Question 50

Q

What is meant by tectonic hazard ‘protection’?

Answer

A

Designing buildings to withstand tectonic hazards

Question 51

Q

What is meant by ‘planning’ for tectonic hazards?

Answer

A

Identifying places at risk or tectonic hazards and ensuring people know what to do in the event of an earthquake/volcano.

Question 52

Q

Give examples of monitoring tectonic hazards

Answer

A

_Volcanoes_
- satellites & laser beams detect changes to the volcano shape
- increasing amounts of gases such as carbon dioxide and hydrogen sulfide are given off before an eruption
_Earthquakes_
* there is no reliable way of monitoring and predicting earthquakes.

Question 53

Q

Give examples of how to predict tectonic hazards?

Answer

A

Volcanoes & Earthquakes

It is incredibly difficult to accurately predict an earthquake or volcanic eruption

Question 54

Q

Give examples of how to plan for tectonic hazards?

Answer

A

_Volcanoes & Earthquakes_

Identify areas at risk and don’t build on these areas
Plan to evacuate high risk areas

Question 55

Q

Give examples of how to protect against tectonic hazards?

Answer

A

_Volcanoes_
- Divert lava away from built up areas by using explosives
_Earthquakes_
- Reinforced foundations
- Shock absorbers to absorb ground shaking
- Automatic shutters to cover windows preventing shattering glass
- Rolling weights on roof to counteract shock waves

Question 56

Q

Define ‘weather’?

Answer

A

The day-to-day conditions of the atmosphere.

Question 57

Q

Define ‘climate’?

Answer

A

The long-term average of weather conditions

Question 58

Q

What is global atmospheric ciruclation?

Answer

A

The circular movements of the Earth’s atmosphere. The cirular movements of air are known as cells. These cells all join together to form the overall circulation of the Earth’s atmosphere.

Question 59

Q

Name the 3 main cells in the global atmospheric circulation model?

Answer

A

Hadley Cell
Ferrell Cell
Polar Cell

Question 60

Q

What is high pressure and where on the global atmospheric cirulation model would you find high pressure?

Answer

A

When air sinks towards the ground, high pressure is formed.

It happens at 30°N and 30°S of the equator, 90°N (North Pole) and 90°S (South Pole) of the equator

Question 61

Q

What is low pressure and where on the global atmospheric cirulation model would you find high pressure?

Answer

A

When air is rising from the surface of the ground, low pressure is formed.

It happens at 0° (the equator), 60°N and 60°S of the equator

Question 62

Q

Where do surface winds blow from and to?

Answer

A

Winds blow from high pressure areas to low pressure areas

Question 63

Q

Describe what happens in the Hadley Cell?

Answer

A

Warm air rises at the equator, travels North and South and sinks around 30°N and 30°S. It then travels back to the equator

Question 64

Q

Describe what happens in the Ferrell Cell

Answer

A

Warm air rises at 60°N and 60°S equator, back towards the equator. Cool air sinks at 30°N and 30°S of the equator.

Answer 64

A

Cool air decends at 90°N (north pole) and 90°S (south pole) then the air moves back towards the equator.

Answer 65

A

Tropical storms are also known as hurricanes, typhoons and cyclones. They are huge storms that form between the tropics.

Answer 66

A

In a band around the equator
Within the Tropic of Cancer and Capricorn
They are rare in the South Atlantic

Answer 67

A

The ocean temperatures are warm enough (27°C)
There is enough intense heating of the ocean to cause warm air to rise rapidly.
They don’t form directly over the equator as there isn’t enough of an impact of the earth’s rotation to cause the storm to spin so they form 5°-15° north and south of the equator.

Answer 68

A

Hurricanes

Answer 69

A

Warm water (above 27°C)
Deep water
Within the tropical zone
No jet stream present

Answer 70

A

On the Saffir-Simpson scale of wind speeds.

Category 1: 74-95mph

Category 2: 96-110mph

Category 3: 111-129mph

Category 4: 130-156mph

Category 5: 157mph+

Answer 71

A

Up to 300km

Answer 72

A

Temperature and air pressure fall
Air pressure falls more, wind increases, lots of cumulonimbus cloud, heavy rainfall
Calm, no wind, no rain, gets slightly warmer, air pressure still very low (EYE OF THE STORM)
Wind and heavy rainfall increase dramatically again, temperature drops, air pressure begins to rise
Tropical storm ends, air pressure and temperature rise

Answer 73

A

Warm wet air from the warm ocean rises. As it cools and condenses it creates huge cumulonibus clouds.
As the warm, wet air is rising, it creates an area of low pressure near the ocean surface. Warm air from outside the storm is sucked in to fill this ‘space’ creating a constant upwelling of warm, moist air to power the storm.
Air leaves the spiralling column in the centre of the storm out of the top and flows downwards to the side of the storm.

Answer 74

A

Up to 300 miles wide
Wind speeds up to 252km/h and above
Thunder and lightning, strong winds at the eye wall

Answer 75

A

6,300 deaths
600,000 people forced to leave their homes
30,000 fishing boats destroyed
90% of city of Tacloban destroyed
Tacloban airport severely damaged
Infrastructure destroyed by winds
Flooding

Answer 76

A

6 million lost jobs
Flooding caused landslides, blocking roads meaning aid was hindered
Power cut off
Difficulty receiving aid as a result of damaged infrastructure
Outbreaks of disease due to poor sanitation and shortages of shelter and water.
Looting and violence broke out

Answer 77

A

Aid agencies donated food, water and shelter quickly
US aircrafts helped with search and rescue
1,200 evacuation centres were set up
The UK provided Shelter Boxes which provided equipment to set up make-shift homes
The Philippines Red Cross delivered basic food packages

Answer 78

A

Infrastructure was rebuilt e.g. bridges and airport
Charities helped to replace fishing boats which is a crucial source of income for many citizens
‘Cash for Work’ programmes paid people to clean up debris
Homes rebuilt away from flood prone areas
Rice farming was quickly restored to ensure food production and a source of income

Answer 79

A

Predicting the track of a tropical storm is very difficult.
Satellite images are used to identify the distinct pattern of clouds associated with tropical storms forming over the ocean.
Aircrafts can be used to monitor conditions within tropical storms.
In the USA, ‘Hurricane Watch’ advises that hurricane conditions are likely. ‘Hurricane Warning’ is issued when people should take action e.g. evacuate.

Answer 80

A

Secure outdoor furniture to the ground
Cut own tree branches to avoid property damage
Window shutters
Buildings built on stilts to prevent storm surge damage
Storm drains in urban areas removed large amounts of water from storm surges
Sea walls built to hold back some water from storm surges

Answer 81

A

Increasing citizens awareness and knowledge of what to do in the event of a tropical storm

e.g. family evacuation plans / emergency kits

Educating people on the dangers of tropical storms and how best to prepare.

Answer 82

A

Distribution: More tropical storms may happen outside of the current areas as sea temperatures increase.

Frequency: frequency may decrease

Intensity: increase intensity of tropical storms

Answer 83

A

Flooding
Storms
Drought
Extreme heat / cold

Answer 84

A

350mm of rain fell in January and February (100mm above average)
A series of storms hit the area
High tides and storm surges swept water upstream, preventing water reaching the sea
Rivers hadn’t been dredged for 20 years so were filled with sediment.

Answer 85

A

16 farms evacuated
600 houses flooded
Residents evacuated for several months
Difficult for people to get to work/school
Power cuts

Answer 86

A

Damage estimated at £10 million
Over 14,000 hectares of farmland was flooded for 1 month
1,000 livestock evacuated
Floods cut off villages

Answer 87

A

Large amounts of rubble and debris had to be cleared
Floodwaters were contminated with sewage
Stagnant water had to be reoxingenated before being pumped back into rivers

Answer 88

A

Immediate:
- Local residents volunteered help
- People used boats to go get to work/school
Long term:
- £20million Flood Action Plan was set up to:
  - Dredge the Rivers Tone and Parratt
  - River banks raised
  - Road levels raised
  - Flood defences in flood-risk areas
  - More pumping stations built.

Answer 89

A

Heatwaves - 2003
Floods - 2007, 2008, 2009, 2013-14, 2015-16
Heavy snow - 2009, 2010, 2017

Answer 90

A

The long term change in global weather patterns

Answer 91

A

Over the past 2.6 million years (the quaternary period) gloal temperatures have fluctuated but have overall gradually declined.

During the last 400,000 years, there have been noticable glacial (cooler periods) and interglacial (warmer periods).

The the last few decades, temperatures have increased above average, known as global warming

Since 1880, global temperatures have increased by 0.85°C

Answer 92

A

Ice cores have been able to identify changes from up to 400,000 years ago.

Huge drills drill down into ice sheets to remove a cylinder of ice. A slice of this ice contains bubbles of carbon dixoide. As carbon dioxide absrobs heat in the atmosphere, the more bubbles evident, the warmer the temperatures were.

Answer 93

A

Shrinking glaciers
Rising sea levels (due to melting ice and thermal expansion)
Seasonal changes (ie. migrating birds, nesting patterns)

Answer 94

A

Orbital changes (Milankovitch Cycles)
Solar Activity
Volcanic Activity

Answer 95

A

Over a period of 11 years, sunspots increase and decrease on the sun. These sunspots appear as dark patches. The more sunspots, the more solar radiation given. This coincides with warmer periods.

Answer 96

A

Eccentricity (orbit). The arth’s orbit changes from a cirular to ellipitcal orbit. During a ellipitcal (oval shaped) orbit, the sun and earth at their biggest distance, causing cooler periods than during a circular orbit. This coincides with glacial and intergalcial periods)

Precession (wobble) - the earth has a natural wobble (like a spinning top). Due to this, places facing away from the Sun experience longer days and nights at certain points of the year

Axial tilt - the earth spins on its axis. The earths axis tilts backwards and forwards over a period of 41,000 years.

Answer 97

A

When a volcanic erupts, it emits large amounts of gas and ash into the atmosphere. This can temporarily block out the suns radiation which causes temporary cooling. This is known as a ‘volcanic winter’.

Answer 98

A

The greenhouse gases in the atmosphere trap some solar radiation entering the atmosphere. Some long wave radiation is absorbed by earth, some escapes back out to space. This is a natural process which keeps Earth at an optimum temperature for life on Earth to survice.

Answer 99

A

The thickening of the greenhouse gas layer, which traps more heat in the atmosphere. It is caused by human actions that release more greenhouse gases into the atmosphere.

Answer 100

A

Carbon dioxide
Methane
Sulphur dioxide
Nitrous oxide
Water vapour

Answer 101

A

Car exhausts
Agricultural fertilisers
Power stations

Answer 102

A

Burning fossil fuels in industry
Car exhausts
Deforestation

Answer 103

A

Decaying organic matter
Rice farming
Livestock
Biomass burning

Answer 104

A

Sea level rise
Drought
Storms

Answer 105

A

Farming produces large amounts of methane through cattle digestion and through the rice farming.

Cattle farming has increased as the world’s population has increased, and more people around the world demand meat in their diets.

Answer 106

A

Trees remove carbon dioxide from the atmosphere. By removing more trees we are removing the ability for trees to take out CO₂. As a result, CO₂ levels increasing. Increasing levels of CO₂in the atmosphere means more heat is trapped. Trees are being cut down to make space for road building and farming.

Answer 107

A

Burning fossil fuels gives off huge quantities of CO₂ which is a gas that absorbs heat in the atmosphere. Fossil fuels are increasingly used in manufacturing, transportation and heating homes.

Answer 108

A

warmer waters may decrease marine wildlife
70% of Asia may be at increased risk of flooding
increasing temperatures and decreasing soil moisture can reduce biodiversity in the rainforest
less sea ice could open up new oil and gas reserves

Answer 109

A

health may decline due to increased levels of malaria in Africa
heatwaves in Europe can kill the vulnerable
crop yields may fall causing famines or job losses
skiing resorts may close due to shorter skiing seasons

Answer 110

A

Establishing strategies to combat climate change and try to prevent or reverse it

Answer 111

A

Implementing strategies to defend communities from the impacts of climate change

Answer 112

A

Kyoto Protocol - countries pledging to reduce their carbon emissions.

Copenhagen Accord - pledging financial support to developing countries to help them tackle to effects of climate change.

Paris Agreement - 195 countries agreed with tackle climate change (i.e. to keep global temperature increase below 2ºc.)

Answer 113

A

Altnerative energies
Carbon capture
Planting Trees
International agreements

Answer 114

A

Changing agricultural systems
Managing water supplies
Reducing risk from rising sea levels

Answer 115

A

Trees remove CO₂ from the atmosphere through photosynthesis. By planting trees, excess CO₂ can be removed from the atmosphere.

Answer 116

A

Most of the carbon dioxide emissions come from fossil fuels. Switching to renewable forms of energy such as solar power, hydroelectric power and nuclear means CO₂ emissions will reduce.

Answer 117

A

Carbon capture is a process by which carbon is captured, compressed and stored underground. This can remove almost 90% of the CO₂ that could otherwise enter the atmosphere.

Answer 118

A

planting drought resistant crops
changing the the time of planting
introducing shades to sheild crops from sun
educating farmers on new farming techniques

Answer 119

A

Collecting and storing water at different seasons can reduce water lost during higher temperatures e.g. In India, collecting glacial water during the winter and it freezes, storing water for summer months.

Answer 120

A

Constructing sea walls to hold back rising waters
Building houses on stilts
Restoring mangroves to reduce the impact of storm waves
Relocating most vulnerable to new places or higher ground.

Brainscape's Knowledge GenomeTM

*Challenge of Natural Hazards (Paper 1) Flashcards

This is a compulsory topic. It covers natural hazards, tectonic hazards, weather hazards and climate change.

Brainscape's Knowledge Genome^TM