Restless Earth

Question 1

Crust

Answer 1

The outer layer of the earth

Question 2

Plate

Answer 2

A section of the earth’s crust

Question 3

Mantle

Answer 3

The dense, mostly solid layer between the outer core and the crust

Question 4

Convection currents

Answer 4

The circular currents of heat in the mantle

Question 5

Inner core

Answer 5

The centre and hottest part of the Earth. Its solid and made up of iron and nickel. Temperatures up to 5500°C.

Question 6

Outercore

Answer 6

Surrounds the inner core. A liquid layer, also made up of iron and nickel.

Question 7

Oceanic crust

Answer 7

Newer, most less than 200 million years old. Denser than continental crust.Can be subducted (sink). Can be renewed and destroyed.

Question 8

Continental crust

Answer 8

Older, most over 1500 million years old. Less dense than oceanic crust. Cannot be subducted (sink). Cannot be renewed and destroyed

Question 9

Plate margins

Answer 9

The boundary where two plates meet

Question 10

Subduction

Answer 10

When a oceanic plate sinks below a continental plate.

Question 11

Destructive-subduction

Answer 11

Oceanic plate moves into and subducts beneath continental plate. E.g. Juan de Fuca Plate (oceanic) subducts beneath North American Plate (continental)

Question 12

Destructive collision

Answer 12

Two continental plates move together to form fold mountains. E.g. Indo-Australian Plate (continental) collides with the Eurasian Plate (continental) to form the Himalayas

Question 13

Constructive

Answer 13

Two plates move away from one another. If two oceanic plates move apart shield volcanoes form to create islands. E.g. North American Plate and the Eurasian Plate move away to form the Mid-Atlantic ridge and Iceland.

Question 14

Conservative

Answer 14

Two plates slide past one another, getting locked together and often jolting past each other to form earthquakes. Volcanoes do not form at this margin. E.g. North American Plate and the Pacific Plate create the San Andreas Fault – a conservative fault line under San Francisco.

Question 15

Young fold mountains

Answer 15

Large mountain ranges where rock layers have been crumpled and forced upwards as they have been forced together at destructive margins.

Question 16

Geosynclines

Answer 16

Huge valleys where sediments are deposited by rivers and the sea. Layers of rock build up in geosynclines and it is these layers that are forced upwards to form young fold mountains.

Question 17

The Alps, Europe

Answer 17

Europe’s highest young fold mountain range

Question 18

Transhumance

Answer 18

The seasonal movement of livestock up and down the mountains. Livestock is taken up the mountain in the summer months to graze on the pasture in the high valleys, and then brought back down into the valley floor during the winter months.

Question 19

HEP

Answer 19

Hydro-electric power. Dams and reservoirs are often built in mountainous areas because the valleys are steep and narrow.

Question 20

Ski industry

Answer 20

Skiing is not the biggest economic wealth creator in the Alps. Its worth 100s of millions to businesses in the Alps.

Question 21

Multiplier effect

Answer 21

As one business grows in an area (skiing) so do other businesses that are connected to it (e.g. equipment hire shops, restaurants, camping sites etc)

Question 22

Mining

Answer 22

The Alps have been folded out of the crust – with the mountains metals, minerals and fossil fuels have been forced out of the crust too. These now lie relatively close to the surface and can be mined easily.

Question 23

Livigno, Italy a community who have adapted to life in high Alps

Answer 23

Invested heavily in the ski industry – farmland has been reverted to ski slopes (farm diversification)
Developed infrastructure and communications – tunnels, motorways, cable cars, ski lifts. Roads are built with snow sheds and hairpins – a highly sinuous road – they are built to reduce gradient/steepness of roads.
Transhumance has stopped in favour of valley farming and valley living – urban areas built in sheltered valleys.

Question 24

Ocean trenches

Answer 24

Deep sections of the ocean, usually where an oceanic plate is sinking below a continental plate. Mariana Trench, in the Pacific, is the deepest part of the planet where two oceanic plates are being subducted.

Question 25

Composite volcanoes

Answer 25

A steep sided volcano that is made up of a variety of materials such as lava and ash. The lava is viscous (sticky) which helps create the steep sides. Eruptions can be pyroclastic. E.g. Mt St Helens, Cascade Rigde, USA

Question 26

Shield volcanoes

Answer 26

A broad, gently sloping volcano that is composed of lava. The lava is non-viscous (not sticky) which means that sides are gentle. E.g. Mauna Loa, Hawaii

Question 27

Natural hazard

Answer 27

An occurrence over which people have little control, which poses a threat to people’s lives and possessions.

Question 28

Vent

Answer 28

The opening – usually central and single – in a volcano from which magma is erupted

Question 29

Magma

Answer 29

Molten rock found within the earth’s crust

Question 30

Lava

Answer 30

Magma that has come out of the crust through a vent and been oxidised (mixed with air)

Question 31

Pyroclastic flow

Answer 31

The build up of pressure under a lava dome can turn lava, ash and dust into a gaseous mix. When the lava dome erupts this then moves rapidly through the air and down the volcano side at 200mph. Temperature is over 200°C

Question 32

Lave dome

Answer 32

The plug at the top of a volcano – that traps lava beneath. Lava domes are deformed days before eruption.

Question 33

Crater

Answer 33

The large open-faced area around the vent at the top of a volcano.

Question 34

Lahar

Answer 34

A secondary effect that is basically a volcanic mudflow. Ash mixes with rainwater or snowmelt to form huge flows of mud (e.g. Mt St Helens, USA, 1980)

Question 35

Primary effects

Answer 35

The immediate effects of an eruption or earthquake, caused directly by it.

Question 36

Secondary effects

Answer 36

The after effects that occur as an indirect effect of the eruption on a longer timescale.

Question 37

Responses (immediate/long term)

Answer 37

The reaction of people after the natural hazard has taken place. Immediate responses often involve mobilising helicopters and search/rescue equipment. Long-term responses involve building and construction – roads, bridges, houses and other infrastructure will need repairing and rebuilding.

Question 38

Aid

Answer 38

Money, food, training and technology given by richer countries to poorer ones, either to help with an emergency or to encourage long-term development. Oxfam got aid to 350,000 people after the eruption of Mt Merapi.

Question 39

Ring of Fire

Answer 39

A ring of volcanoes that circle the Pacific Ocean. This includes the west coast of North and South America and Indonesia

Question 40

Mount St Helens, USA

Answer 40

Located in Washington State in the Pacific Northwest region of the United States. Most famous eruption is on May 18, 1980 - the deadliest and most economically destructive volcanic event in the history of the USA. A composite volcano found on destructive-subduction plate margin (subducting Juan de Fuca Plate (oceanic) beneath North American Plate (continental). Earthquake measuring 5.1 on Richter scale caused a landslide on the north-east side of the mountain. Led to lateral (sideways) blast and pyroclastic flows that wiped out everything within a 27km radius. Lahars followed. 57 died. Huge disruptions to transport and trade in US.

Question 41

Fertile soils

Answer 41

Volcanic ash increases soil fertility - supporting farming and food supplies

Question 42

Increased notoriety & tourism

Answer 42

Mt St Helens is better known today than before 1980. Receives 3 million visitors a year.

Question 43

Geothermal energy

Answer 43

Volcanic activity releases heat – known as geothermal energy. Geothermal heating meets the heating and hot water requirements of 87% of all buildings in Iceland

Question 44

Precious and semi-precious gems

Answer 44

Volcanic lava cools to create precious gems like diamonds, opals and quartz

Question 45

Recreation

Answer 45

Volcanoes are often found in fold mountain ranges – leading to recreation activities like skiing, hiking and walking

Question 46

Household products

Answer 46

Pumice (released by eruptions) is found in kitty litter, toothpaste and stone-washed jeans are created with it.

Question 47

USGS

Answer 47

United States Geological Survey – an organisation based in the USA who survey and monitor volcanoes.

Question 48

GPS

Answer 48

Global Positioning Systems - GPS use satellites to detect earth movements as little as 1mm.
More than a dozen GPS stations have been installed on or around Mt St Helens.

Question 49

Lava dome deformation

Answer 49

Changes in the lava dome (the plug in the top of the volcano) happen just before eruption.

Question 50

Tiltmeters

Answer 50

Identify small, subtle changes in the landscape. Detect change to lava domes caused by shifting magma beneath.

Question 51

Digital cameras

Answer 51

Monitoring through digital photography is safe and effective. Heat resistant cameras are used.

Question 52

COSPEC

Answer 52

Measures sulphur dioxide released. More sulphur is released just before eruption.

Question 53

Fumeroles

Answer 53

Openings on a volcano that release sulphur.

Question 54

Seismographs

Answer 54

A measuring device rigged to a sensor. The device records the extent of the seismic activity by plotting movement with a pen on a rotating drum.

Question 55

Seismogram

Answer 55

The line graph that is printed out by the seismograph. Patterns can be observed and predictions made.

Question 56

Supervolcano

Answer 56

A mega colossal volcano that erupts ta least 1,000km3 of material. They erupt less frequently than other volcanoes, but when they do their eruptions can be apocalyptic. They are found away from plate boundaries on top of hot spots.

Question 57

Caldera

Answer 57

The depression of the supervolcano making the collapsed magma chamber

Question 58

Fissures

Answer 58

Lines of weakness that allow magma to escape

Question 59

Geothermal features

Answer 59

Natural features that are created by a magma chamber close to the surface – e.g. a geyser is a superheated jet of water that is forced out of the crust under pressure.

Question 60

Hot spot

Answer 60

A section of the earth’s crust where plumes of magma rise, weakening the crust. They are away from plate boundaries.

Question 61

Earthquakes

Answer 61

A shaking of the earth’s surface that occur with a build up of pressure within the Earth’s crust, this is suddenly released and the ground shakes violently.

Question 62

Focus

Answer 62

The point in the crust where the pressure is released and where seismic waves come from. Shallow focus quakes are more destructive.

Question 63

Epicentre

Answer 63

The point on the crust directly above the focus. It receives the highest amount of energy.

Question 64

Seismic waves

Answer 64

The energy released by an earthquake. There are 3 types.

Question 65

P waves

Answer 65

Primary waves are the fastest waves and shake the Earth backwards and forwards

Question 66

S waves

Answer 66

Secondary waves are slower and move with a sideways motion

Question 67

Surface waves

Answer 67

Travel nearer the surface and most slowly. They arrive at the end, but are the MOST DESTRUCTIVE. They can be longitudinal and transverse.

Question 68

Magnitude

Answer 68

The amount of energy that is released by an earthquake – usually measured on the Richter scale.

Question 69

Richter scale

Answer 69

A logarithmic scale with each unit representing a 10 fold increase in strength (i.e. Pakistan earthquake in 2005 was 7.7, amplitude of seismic waves x10 greater than Iran in 2003 at 6.6). It is scientific and reliable. But doesn’t recognise the effects of an earthquake.

Question 70

Mercalli scale

Answer 70

A 12 point scale that measures the effects of a seismic event. It is based on people’s observations (subjective) and is not scientific.

Question 71

Kobe earthquake

Answer 71

17th Jan 1995. 7.2 on Richter scale. Shallow focus – just 12 miles below surface – more devastating. Reactivated old fault line beneath Kobe’s CBD. Tremors lasted 20 seconds. 5,500 dead; 30,000 injured; 300,000 homeless; buildings in old districts collapsed (2 tonne roofs, typhoon proof not quake proof); liquefaction in Osaka Bay, damaged port; Hanshin Highway collapsed – building codes flouted. Fires spread. Responses efficient and swift; emergency services quick; people prepared by Hazard days; a year later 80% of Port working,

Question 72

Haiti earthquake

Answer 72

12th May 2008. 7.9 Richter scale, tremors lasted 120 seconds. Epicentre 90km north-west of Chengdu, Sichuan – a rural area. China is a vast country. No warning for the people in Sichuan- led to a severely high death toll. 70,000 dead, 20,000 missing, 400,000 injured. Secondary effects included fractured dams and quake lakes.

Question 73

The three P’s

Answer 73

The collective term from prediction, protection and preparation

Question 74

Prediction

Answer 74

Attempts to forecast an event – where and when it will happen – based on current knowledge (e.g. USGS)

Question 75

Protection

Answer 75

Constructing buildings so that they are safe to live in and will not collapse (e.g. Torre Major, Mexico City)

Question 76

Preparation

Answer 76

Organising activities and drills so that people know what to do in the event of an earthquake (e.g. FEMA)

Question 77

Tsunami

Answer 77

A special type of wave where the entire depth of the sea or ocean is set in motion by an event, often an earthquake, which displaces the water above it and creates a huge wave.

Question 78

Megathrust

Answer 78

When the crust is forced upwards by an earthquake above 9.0 on the Richter scale. The Asian and Sendai tsunamis were megathrust events.

Question 79

Tsunami train

Answer 79

The series of waves that hit the coast during a tsunami

Question 80

Drawback

Answer 80

The withdrawal of the ocean minutes before the tsunami hits land

Question 81

Indian Ocean tsunami

Answer 81

Occurred on the 26th December 2004. 9.3 megathrust earthquake. Waves created as high as 25m. 150,000 died on the first day. Millions homeless across 11 countries.

Question 82

Mount Merapi, Java, Indonesia

Answer 82

Mount Merapi, the world’s most active volcano, erupted on Tuesday 26 October 2010. A composite volcano. Despite advance warning of the explosive eruptions that were coming, many villagers chose to stay on the volcano until as late as possible to tend to crops and livestock. Lava dome deformation was observed days before the eruption. 353 people were killed during the eruptions, many as a result of pyroclastic flows and toxic gas inhalation. Ash plumes from the volcano also caused major disruption to flights and the airline industry across Asia.

Question 83

Java and Javanese culture

Answer 83

Highly spiritual people. Major religions are Hinduism and Buddhism. They believe in animism – that natural beings have souls. Mbah Maridjan was “the gate keeper” of Mt Merapi, his role was managing the volcano’s hidden spirits. He died in October 2010.

Question 84

Bavitan Observatory, Mt Merapi

Answer 84

Bavitan Observatory is the only observation site on Mt Merapi. Has a set of digital cameras, one seismograph and a set of sulphur dioxide detectors (COSPEC).

Question 85

Sichuan earthquake

Answer 85

12th May 2008. 7.9 Richter scale, tremors lasted 120 seconds. Epicentre 90km north-west of Chengdu, Sichuan – a rural area. China is a vast country. No warning for the people in Sichuan- led to a severely high death toll. 70,000 dead, 20,000 missing, 400,000 injured. Secondary effects included fractured dams and quake lakes.